###
### Radius of Kikuchi pattern R = 0.902674 (used for computation of figure of merit)
###
###
### Bravais-type: number of indexing solutions (best figure of merit)
###

(1) Triclinic : 50 (20.7481)
(2) Monoclinic(P) : 54 (20.0998)
(3) Monoclinic(C) : 57 (9.65143)
(4) Orthorhombic(P) : 11 (16.7649)
(5) Orthorhombic(C) : 24 (9.41595)
(6) Orthorhombic(I) : 18 (3.48904)
(7) Orthorhombic(F) : 0
(8) Tetragonal(P) : 0
(9) Tetragonal(I) : 0
(10) Trigonal : 0
(11) Hexagonal : 0
(12) Cubic(P) : 0
(13) Cubic(I) : 0
(14) Cubic(F) : 0

###                                ###
### Candidates for        Cubic(F) ###
###                                ###

###                                ###
### Candidates for        Cubic(I) ###
###                                ###

###                                ###
### Candidates for        Cubic(P) ###
###                                ###

###                                ###
### Candidates for       Hexagonal ###
###                                ###

###                                ###
### Candidates for        Trigonal ###
###                                ###

###                                ###
### Candidates for   Tetragonal(I) ###
###                                ###

###                                ###
### Candidates for   Tetragonal(P) ###
###                                ###

###                                ###
### Candidates for Orthorhombic(F) ###
###                                ###

###                                ###
### Candidates for Orthorhombic(I) ###
###                                ###

###            No.1                ###
# Bravais type
 Orthorhombic(I)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.0425    1.1907    1.6156   89.4740   94.1560   90.6696      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.0598    1.1831    1.5952   90.0000   90.0000   90.0000      0.0000         0.6643    0.7416
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0309    0.0333    0.0000    0.0000    0.0000      0.0000         0.0139    0.0182
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.2671    0.3847   -0.8401)
 a2 = (   -0.7875    0.0863    0.2793)
 a3 = (    0.1307    0.5814    0.1733)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.2646    0.3174   -0.8483) (    0.0090    0.0052    0.0035)
 a2 = (   -0.7918    0.0917    0.2813) (    0.0223    0.0095    0.0054)
 a3 = (    0.1313    0.5864    0.1785) (    0.0058    0.0124    0.0050)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -69.6883   73.4580  167.3814    0.5485    0.3267    0.5174
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0005    0.0025    0.0000      0.0024    0.0043    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.3720         3.4890
# Chi-squares at the beginning and the end of the refinement
   10.1833    0.0169
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -3    3   -0.3954   -0.0861   -0.3948   -0.0985    0.0125    1
    2    0    0    2   -0.0638   -0.2837   -0.0649   -0.2885    0.0049    1
    3   -1   -1    0   -0.4434    0.1980   -0.4653    0.1876    0.0243    0
    4   -1    0   -3    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5   -2   -3   -3   -0.0579    0.0641   -0.0615    0.0665    0.0044    1
    6   -1    0    3   -0.3927   -0.8098   -0.3626   -0.7930    0.0344    0
    7    0    6   -4    0.1674    0.0577    0.1477    0.0591    0.0197    0
    8    2    6    2    0.0552   -0.0270    0.0790   -0.0154    0.0266    0
    9   -1    5    0    0.6092   -0.0078    0.6879   -0.0069    0.0787    0
   10   -1    2    5    0.1927   -0.7936    0.1845   -0.7818    0.0143    1
   11    1    2    5    0.0518   -0.1510    0.0532   -0.1549    0.0041    1
   12    0    6    4    0.3866   -0.2617    0.3747   -0.2907    0.0314    0
   13   -1   -2    5   -0.2438   -0.2296   -0.2415   -0.2352    0.0061    1
   14   -1   -2    1   -0.2305   -0.0028   -0.2334   -0.0072    0.0052    1
   15    0    1   -1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1    2   -5    0.0769    0.1223    0.0758    0.1206    0.0020    1
   17    0    1    3    0.0901   -0.4171    0.1219   -0.4292    0.0340    0
   18   -2   -2    6   -0.4209   -0.3704   -0.4045   -0.3765    0.0175    1
   19    0    1    1    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -3    3   -0.3952   -0.0991   -0.3948   -0.0985    0.0007    1
    2    0    0    2   -0.0654   -0.2873   -0.0649   -0.2885    0.0013    1
    3   -1   -1    0   -0.4673    0.1833   -0.4653    0.1876    0.0048    1
    4   -1    0   -3    0.0088    0.1526    0.0088    0.1499    0.0027    1
    5   -2   -3   -3   -0.0598    0.0656   -0.0615    0.0665    0.0019    1
    6   -1    0    3   -0.3632   -0.7916   -0.3626   -0.7930    0.0015    1
    7    0    6   -4    0.1649    0.0588    0.1477    0.0591    0.0172    1
    8    2    6    2    0.0563   -0.0242    0.0790   -0.0154    0.0244    0
    9   -1    5    0    0.6089   -0.0207    0.6879   -0.0069    0.0802    0
   10   -1    2    5    0.1841   -0.7770    0.1845   -0.7818    0.0049    1
   11    1    2    5    0.0543   -0.1552    0.0532   -0.1549    0.0011    1
   12    0    6    4    0.3862   -0.2625    0.3747   -0.2907    0.0305    0
   13   -1   -2    5   -0.2427   -0.2326   -0.2415   -0.2352    0.0029    1
   14   -1   -2    1   -0.2346   -0.0076   -0.2334   -0.0072    0.0013    1
   15    0    1   -1    0.0860    0.0489    0.0894    0.0482    0.0035    1
   16   -1    2   -5    0.0765    0.1220    0.0758    0.1206    0.0016    1
   17    0    1    3    0.0902   -0.4193    0.1219   -0.4292    0.0332    0
   18   -2   -2    6   -0.4077   -0.3766   -0.4045   -0.3765    0.0033    1
   19    0    1    1    0.3384   -0.3454    0.3388   -0.3445    0.0010    1

###            No.2                ###
# Bravais type
 Orthorhombic(I)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.0752    1.1677    1.5964   89.7660   91.8498   93.2437      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.0592    1.1844    1.5941   90.0000   90.0000   90.0000      0.0000         0.6645    0.7430
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0281    0.0280    0.0000    0.0000    0.0000      0.0000         0.0117    0.0167
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.2038   -0.3341    0.8459)
 a2 = (   -0.8033    0.0963    0.2850)
 a3 = (   -0.1318   -0.5864   -0.1777)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.2646   -0.3180    0.8486) (    0.0089    0.0047    0.0033)
 a2 = (   -0.7909    0.0916    0.2809) (    0.0203    0.0093    0.0046)
 a3 = (   -0.1315   -0.5867   -0.1788) (    0.0056    0.0102    0.0048)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   69.6887  106.5650  -12.6313    0.5309    0.3102    0.4832
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0003    0.0029    0.0000      0.0024    0.0040    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.4731         3.4830
# Chi-squares at the beginning and the end of the refinement
    5.3331    0.0195
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -3   -3   -0.4014   -0.1002   -0.3948   -0.0985    0.0068    1
    2    0    0   -2   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    1   -1    0   -0.4709    0.2013   -0.4653    0.1876    0.0148    1
    4    1    0    3    0.0136    0.1482    0.0088    0.1499    0.0051    1
    5    2   -3    3   -0.0555    0.0623   -0.0615    0.0665    0.0073    1
    6    1    0   -3   -0.3458   -0.8223   -0.3626   -0.7930    0.0338    1
    7    0    6    4    0.1684    0.0557    0.1477    0.0591    0.0210    0
    8   -2    6   -2    0.0608   -0.0296    0.0790   -0.0154    0.0231    0
    9    1    3    0    0.7706    0.0158    0.6879   -0.0069    0.0857    0
   10    1    2   -5    0.2055   -0.7710    0.1845   -0.7818    0.0236    1
   11   -1    2   -5    0.0531   -0.1595    0.0532   -0.1549    0.0045    1
   12    0    6   -4    0.3852   -0.2624    0.3747   -0.2907    0.0303    0
   13    1   -2   -5   -0.2420   -0.2357   -0.2415   -0.2352    0.0006    1
   14    1   -2   -1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    0    1    1    0.0900    0.0472    0.0894    0.0482    0.0012    1
   16    1    2    5    0.0794    0.1183    0.0758    0.1206    0.0042    1
   17    0    1   -3    0.0924   -0.4206    0.1219   -0.4292    0.0307    0
   18    2   -2   -6   -0.4111   -0.3894   -0.4045   -0.3765    0.0145    1
   19    0    1   -1    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -3   -3   -0.3961   -0.0991   -0.3948   -0.0985    0.0014    1
    2    0    0   -2   -0.0654   -0.2874   -0.0649   -0.2885    0.0012    1
    3    1   -1    0   -0.4678    0.1843   -0.4653    0.1876    0.0041    1
    4    1    0    3    0.0090    0.1525    0.0088    0.1499    0.0026    1
    5    2   -3    3   -0.0598    0.0662   -0.0615    0.0665    0.0018    1
    6    1    0   -3   -0.3634   -0.7916   -0.3626   -0.7930    0.0015    1
    7    0    6    4    0.1645    0.0591    0.1477    0.0591    0.0168    1
    8   -2    6   -2    0.0562   -0.0237    0.0790   -0.0154    0.0243    0
    9    1    5    0    0.6094   -0.0203    0.6879   -0.0069    0.0796    0
   10    1    2   -5    0.1835   -0.7772    0.1845   -0.7818    0.0047    1
   11   -1    2   -5    0.0543   -0.1550    0.0532   -0.1549    0.0012    1
   12    0    6   -4    0.3864   -0.2626    0.3747   -0.2907    0.0305    0
   13    1   -2   -5   -0.2430   -0.2329   -0.2415   -0.2352    0.0028    1
   14    1   -2   -1   -0.2353   -0.0073   -0.2334   -0.0072    0.0020    1
   15    0    1    1    0.0855    0.0490    0.0894    0.0482    0.0040    1
   16    1    2    5    0.0762    0.1219    0.0758    0.1206    0.0013    1
   17    0    1   -3    0.0900   -0.4192    0.1219   -0.4292    0.0334    0
   18    2   -2   -6   -0.4081   -0.3770   -0.4045   -0.3765    0.0037    1
   19    0    1   -1    0.3384   -0.3456    0.3388   -0.3445    0.0012    1

###            No.3                ###
# Bravais type
 Orthorhombic(I)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.9478    1.2728    1.6725   84.4112   91.0535   95.1347      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.0592    1.1844    1.5941   90.0000   90.0000   90.0000      0.0000         0.6645    0.7430
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0281    0.0280    0.0000    0.0000    0.0000      0.0000         0.0117    0.0167
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.4415   -0.2897    0.9183)
 a2 = (    0.7285   -0.0910   -0.2984)
 a3 = (    0.0722    0.5763    0.1538)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.2646   -0.3180    0.8486) (    0.0089    0.0047    0.0033)
 a2 = (    0.7909   -0.0916   -0.2809) (    0.0203    0.0093    0.0046)
 a3 = (    0.1315    0.5867    0.1788) (    0.0056    0.0102    0.0048)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  110.3113   73.4350  167.3687    0.5309    0.3102    0.4832
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0003    0.0029    0.0000      0.0024    0.0040    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.3412         3.4830
# Chi-squares at the beginning and the end of the refinement
   26.0958    0.0195
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    3    3   -0.3987   -0.1064   -0.3948   -0.0985    0.0087    1
    2    0    0    2   -0.0329   -0.2628   -0.0649   -0.2885    0.0410    0
    3    1    1    0   -0.4791    0.1559   -0.4653    0.1876    0.0346    0
    4    1   -1   -6    0.0152    0.0774    0.0088    0.1499    0.0729    0
    5    3    5   -4   -0.0864    0.0671   -0.0615    0.0665    0.0249    0
    6    1    0    3   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    0   -1   -1    0.1321    0.0800    0.1477    0.0591    0.0261    0
    8   -1   -5   -2    0.0623    0.0060    0.0790   -0.0154    0.0272    0
    9    1   -5    0    0.7510   -0.0388    0.6879   -0.0069    0.0707    0
   10    1   -2    5    0.1841   -0.7801    0.1845   -0.7818    0.0018    1
   11   -1   -3    6    0.0941   -0.1725    0.0532   -0.1549    0.0445    0
   12    0   -6    4    0.3961   -0.2766    0.3747   -0.2907    0.0256    0
   13    1    2    5   -0.2259   -0.2409   -0.2415   -0.2352    0.0167    1
   14    1    2    1   -0.2405   -0.0128   -0.2334   -0.0072    0.0091    1
   15   -1   -6   -3    0.0791    0.0141    0.0894    0.0482    0.0357    0
   16    0   -1   -1    0.1321    0.0800    0.0758    0.1206    0.0693    0
   17    0   -1    3    0.1089   -0.3869    0.1219   -0.4292    0.0442    0
   18    2    2    6   -0.4009   -0.3898   -0.4045   -0.3765    0.0138    1
   19    0   -1    1    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    3    3   -0.3961   -0.0991   -0.3948   -0.0985    0.0014    1
    2    0    0    2   -0.0654   -0.2874   -0.0649   -0.2885    0.0012    1
    3    1    1    0   -0.4678    0.1843   -0.4653    0.1876    0.0041    1
    4    1    0   -3    0.0090    0.1525    0.0088    0.1499    0.0026    1
    5    2    3   -3   -0.0598    0.0662   -0.0615    0.0665    0.0018    1
    6    1    0    3   -0.3634   -0.7916   -0.3626   -0.7930    0.0015    1
    7    0   -6   -4    0.1645    0.0591    0.1477    0.0591    0.0168    1
    8   -2   -6    2    0.0562   -0.0237    0.0790   -0.0154    0.0243    0
    9    1   -5    0    0.6094   -0.0203    0.6879   -0.0069    0.0796    0
   10    1   -2    5    0.1835   -0.7772    0.1845   -0.7818    0.0047    1
   11   -1   -2    5    0.0543   -0.1550    0.0532   -0.1549    0.0012    1
   12    0   -6    4    0.3864   -0.2626    0.3747   -0.2907    0.0305    0
   13    1    2    5   -0.2430   -0.2329   -0.2415   -0.2352    0.0028    1
   14    1    2    1   -0.2353   -0.0073   -0.2334   -0.0072    0.0020    1
   15    0   -1   -1    0.0855    0.0490    0.0894    0.0482    0.0040    1
   16    1   -2   -5    0.0762    0.1219    0.0758    0.1206    0.0013    1
   17    0   -1    3    0.0900   -0.4192    0.1219   -0.4292    0.0334    0
   18    2    2    6   -0.4081   -0.3770   -0.4045   -0.3765    0.0037    1
   19    0   -1    1    0.3384   -0.3456    0.3388   -0.3445    0.0012    1

###            No.15                ###
# Bravais type
 Orthorhombic(I)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.0448    1.1893    1.6098   89.5156   90.7396   90.4408      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.0617    1.1833    1.5920   90.0000   90.0000   90.0000      0.0000         0.6669    0.7433
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0254    0.0274    0.0000    0.0000    0.0000      0.0000         0.0115    0.0151
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.2664    0.3052   -0.8673)
 a2 = (    0.7883   -0.0864   -0.2796)
 a3 = (   -0.1309   -0.5821   -0.1735)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.2621    0.3175   -0.8472) (    0.0074    0.0046    0.0029)
 a2 = (    0.7922   -0.0917   -0.2795) (    0.0183    0.0079    0.0046)
 a3 = (   -0.1314   -0.5874   -0.1795) (    0.0052    0.0100    0.0047)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -110.1904  106.6087  -12.6062    0.4593    0.3021    0.4428
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0005    0.0033    0.0000      0.0023    0.0033    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.5118         3.3501
# Chi-squares at the beginning and the end of the refinement
    0.7810    0.0562
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    3   -3   -0.4019   -0.1071   -0.3948   -0.0985    0.0111    1
    2    0    0   -2   -0.0638   -0.2837   -0.0649   -0.2885    0.0049    1
    3   -1    1    0   -0.4897    0.1818   -0.4653    0.1876    0.0250    0
    4   -1    0    3    0.0104    0.1685    0.0088    0.1499    0.0186    0
    5   -3    5    4   -0.0687    0.0599   -0.0615    0.0665    0.0098    1
    6   -1    0   -3   -0.3642   -0.7964   -0.3626   -0.7930    0.0038    1
    7    0   -6    4    0.1674    0.0577    0.1477    0.0591    0.0197    0
    8    2   -6   -2    0.0479   -0.0220    0.0790   -0.0154    0.0318    0
    9   -1   -5    0    0.6156   -0.0213    0.6879   -0.0069    0.0738    0
   10   -1   -2   -5    0.1847   -0.7821    0.1845   -0.7818    0.0003    1
   11    1   -2   -5    0.0515   -0.1469    0.0532   -0.1549    0.0082    1
   12    0   -6   -4    0.3866   -0.2617    0.3747   -0.2907    0.0314    0
   13   -1    2   -5   -0.2415   -0.2352   -0.2415   -0.2352    0.0000    1
   14   -1    2   -1   -0.2433   -0.0128   -0.2334   -0.0072    0.0114    1
   15    0   -1    1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1   -2    5    0.0837    0.1297    0.0758    0.1206    0.0121    1
   17    0   -1   -3    0.0901   -0.4171    0.1219   -0.4292    0.0340    0
   18   -2    2   -6   -0.4081   -0.3820   -0.4045   -0.3765    0.0066    1
   19    0   -1   -1    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    3   -3   -0.3972   -0.0992   -0.3948   -0.0985    0.0025    1
    2    0    0   -2   -0.0656   -0.2878   -0.0649   -0.2885    0.0010    1
    3   -1    1    0   -0.4684    0.1850   -0.4653    0.1876    0.0040    1
    4   -1    0    3    0.0089    0.1511    0.0088    0.1499    0.0012    1
    5   -2    3    3   -0.0597    0.0665   -0.0615    0.0665    0.0018    1
    6   -1    0   -3   -0.3617   -0.7918   -0.3626   -0.7930    0.0015    1
    7    0   -6    4    0.1622    0.0588    0.1477    0.0591    0.0145    1
    8    2   -6   -2    0.0553   -0.0229    0.0790   -0.0154    0.0249    0
    9   -1   -5    0    0.6054   -0.0198    0.6879   -0.0069    0.0835    0
   10   -1   -2   -5    0.1842   -0.7747    0.1845   -0.7818    0.0071    1
   11    1   -2   -5    0.0543   -0.1550    0.0532   -0.1549    0.0011    1
   12    0   -6   -4    0.3847   -0.2609    0.3747   -0.2907    0.0315    0
   13   -1    2   -5   -0.2438   -0.2334   -0.2415   -0.2352    0.0029    1
   14   -1    2   -1   -0.2365   -0.0070   -0.2334   -0.0072    0.0031    1
   15    0   -1    1    0.0835    0.0484    0.0894    0.0482    0.0059    1
   16   -1   -2    5    0.0749    0.1203    0.0758    0.1206    0.0010    1
   17    0   -1   -3    0.0901   -0.4185    0.1219   -0.4292    0.0335    0
   18   -2    2   -6   -0.4084   -0.3777   -0.4045   -0.3765    0.0041    1
   19    0   -1   -1    0.3373   -0.3438    0.3388   -0.3445    0.0016    1

###                                ###
### Candidates for Orthorhombic(C) ###
###                                ###

###            No.1                ###
# Bravais type
 Orthorhombic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.3540    1.9912    0.7459   92.5882   94.6103   86.8926      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.3318    2.0110    0.7467   90.0000   90.0000   90.0000      0.0000         1.7835    2.6931
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0340    0.0151    0.0000    0.0000    0.0000      0.0000         0.0362    0.0539
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.1718    0.2210   -0.6871)
 a2 = (    0.1220    0.4657    0.1469)
 a3 = (    1.2565   -0.1223   -0.4670)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.2129    0.2532   -0.6741) (    0.0052    0.0042    0.0023)
 a2 = (    0.1043    0.4651    0.1417) (    0.0040    0.0078    0.0037)
 a3 = (    1.2531   -0.1438   -0.4498) (    0.0272    0.0105    0.0080)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -72.3850  109.6261   83.4524    0.3532    0.3917    0.4407
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0002    0.0016    0.0000      0.0025    0.0024    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.5307         9.4160
# Chi-squares at the beginning and the end of the refinement
    6.3565    0.0253
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -4    6    3   -0.3946   -0.1174   -0.3948   -0.0985    0.0188    1
    2    0    2    0   -0.0773   -0.2951   -0.0649   -0.2885    0.0141    1
    3   -2    0    1   -0.5042    0.1778   -0.4653    0.1876    0.0401    0
    4   -1   -3    0    0.0180    0.1501    0.0088    0.1499    0.0092    1
    5   -4   -6    3   -0.0574    0.0623   -0.0615    0.0665    0.0059    1
    6   -1    3    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    0   -6   -4    0.1477    0.0591    0.1477    0.0591    0.0000    1
    8    2    0   -4    0.0893   -0.0155    0.0790   -0.0154    0.0103    1
    9   -2    0   -4    0.6923   -0.0070    0.6879   -0.0069    0.0044    1
   10   -1    5   -1    0.1724   -0.8102    0.1845   -0.7818    0.0308    1
   11    1    5   -1    0.0539   -0.1760    0.0532   -0.1549    0.0211    0
   12    0    6   -4    0.4040   -0.3090    0.3747   -0.2907    0.0345    0
   13   -1    5    1   -0.2403   -0.2340   -0.2415   -0.2352    0.0017    1
   14   -1    1    1   -0.2352   -0.0186   -0.2334   -0.0072    0.0116    1
   15    0   -2   -1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1   -5   -1    0.0812    0.1162    0.0758    0.1206    0.0069    1
   17    0    6   -1    0.0805   -0.4478    0.1219   -0.4292    0.0454    0
   18   -2    6    1   -0.4006   -0.3830   -0.4045   -0.3765    0.0076    1
   19    0    2   -1    0.3607   -0.3754    0.3388   -0.3445    0.0379    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -4    6    3   -0.3938   -0.0996   -0.3948   -0.0985    0.0014    1
    2    0    2    0   -0.0653   -0.2886   -0.0649   -0.2885    0.0004    1
    3   -2    0    1   -0.4655    0.1818   -0.4653    0.1876    0.0058    1
    4   -1   -3    0    0.0089    0.1521    0.0088    0.1499    0.0021    1
    5   -4   -6    3   -0.0587    0.0638   -0.0615    0.0665    0.0039    1
    6   -1    3    0   -0.3658   -0.7926   -0.3626   -0.7930    0.0032    1
    7    0   -6   -4    0.1456    0.0589    0.1477    0.0591    0.0021    1
    8    2    0   -4    0.0796   -0.0142    0.0790   -0.0154    0.0013    1
    9   -2    0   -4    0.6858   -0.0087    0.6879   -0.0069    0.0027    1
   10   -1    5   -1    0.1834   -0.7823    0.1845   -0.7818    0.0012    1
   11    1    5   -1    0.0549   -0.1572    0.0532   -0.1549    0.0028    1
   12    0    6   -4    0.3800   -0.2901    0.3747   -0.2907    0.0053    1
   13   -1    5    1   -0.2420   -0.2330   -0.2415   -0.2352    0.0023    1
   14   -1    1    1   -0.2329   -0.0085   -0.2334   -0.0072    0.0014    1
   15    0   -2   -1    0.0880    0.0491    0.0894    0.0482    0.0017    1
   16   -1   -5   -1    0.0773    0.1225    0.0758    0.1206    0.0024    1
   17    0    6   -1    0.0904   -0.4221    0.1219   -0.4292    0.0322    0
   18   -2    6    1   -0.4076   -0.3768   -0.4045   -0.3765    0.0032    1
   19    0    2   -1    0.3410   -0.3492    0.3388   -0.3445    0.0052    1

###            No.2                ###
# Bravais type
 Orthorhombic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.3132    2.0349    0.7502   90.3605   90.4526   86.1184      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.3317    2.0123    0.7463   90.0000   90.0000   90.0000      0.0000         1.7844    2.6964
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0379    0.0140    0.0000    0.0000    0.0000      0.0000         0.0335    0.0496
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.2117    0.3049   -0.6669)
 a2 = (   -0.1036   -0.4608   -0.1397)
 a3 = (   -1.2483    0.1368    0.4474)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.2122    0.2527   -0.6745) (    0.0045    0.0039    0.0019)
 a2 = (   -0.1045   -0.4648   -0.1412) (    0.0038    0.0089    0.0035)
 a3 = (   -1.2540    0.1454    0.4491) (    0.0248    0.0097    0.0077)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -107.5580   70.4196  -96.6147    0.3138    0.3260    0.4052
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0006    0.0015    0.0000      0.0023    0.0024    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.8683         9.2953
# Chi-squares at the beginning and the end of the refinement
    7.1714    0.0275
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -4   -6   -3   -0.3962   -0.0863   -0.3948   -0.0985    0.0124    1
    2    0   -2    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -2    0   -1   -0.4421    0.1975   -0.4653    0.1876    0.0252    0
    4   -1    3    0    0.0086    0.1464    0.0088    0.1499    0.0035    1
    5   -4    6   -3   -0.0552    0.0611   -0.0615    0.0665    0.0083    1
    6   -1   -5    0   -0.2199   -0.6026   -0.3626   -0.7930    0.2379    0
    7    0    6    4    0.1466    0.0579    0.1477    0.0591    0.0016    1
    8    2    0    4    0.0804   -0.0172    0.0790   -0.0154    0.0023    1
    9   -2    0    4    0.6833    0.0093    0.6879   -0.0069    0.0169    1
   10   -1   -5    1    0.1945   -0.8013    0.1845   -0.7818    0.0219    1
   11    1   -5    1    0.0535   -0.1560    0.0532   -0.1549    0.0011    1
   12    0   -6    4    0.3818   -0.2893    0.3747   -0.2907    0.0072    1
   13   -1   -5   -1   -0.2460   -0.2316   -0.2415   -0.2352    0.0057    1
   14   -1   -1   -1   -0.2297   -0.0028   -0.2334   -0.0072    0.0057    1
   15    0    2    1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1    5    1    0.0758    0.1206    0.0758    0.1206    0.0000    1
   17    0   -6    1    0.0914   -0.4232    0.1219   -0.4292    0.0311    0
   18   -2   -6   -1   -0.4237   -0.3729   -0.4045   -0.3765    0.0196    1
   19    0   -2    1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -4   -6   -3   -0.3944   -0.0994   -0.3948   -0.0985    0.0009    1
    2    0   -2    0   -0.0656   -0.2877   -0.0649   -0.2885    0.0011    1
    3   -2    0   -1   -0.4667    0.1823   -0.4653    0.1876    0.0055    1
    4   -1    3    0    0.0088    0.1532    0.0088    0.1499    0.0033    1
    5   -4    6   -3   -0.0599    0.0646   -0.0615    0.0665    0.0025    1
    6   -1   -3    0   -0.3659   -0.7921   -0.3626   -0.7930    0.0034    1
    7    0    6    4    0.1453    0.0586    0.1477    0.0591    0.0025    1
    8    2    0    4    0.0785   -0.0142    0.0790   -0.0154    0.0013    1
    9   -2    0    4    0.6842   -0.0098    0.6879   -0.0069    0.0047    1
   10   -1   -5    1    0.1827   -0.7809    0.1845   -0.7818    0.0020    1
   11    1   -5    1    0.0541   -0.1561    0.0532   -0.1549    0.0015    1
   12    0   -6    4    0.3783   -0.2894    0.3747   -0.2907    0.0038    1
   13   -1   -5   -1   -0.2423   -0.2326   -0.2415   -0.2352    0.0028    1
   14   -1   -1   -1   -0.2336   -0.0084   -0.2334   -0.0072    0.0012    1
   15    0    2    1    0.0879    0.0490    0.0894    0.0482    0.0017    1
   16   -1    5    1    0.0775    0.1230    0.0758    0.1206    0.0029    1
   17    0   -6    1    0.0897   -0.4210    0.1219   -0.4292    0.0332    0
   18   -2   -6   -1   -0.4080   -0.3764   -0.4045   -0.3765    0.0035    1
   19    0   -2    1    0.3395   -0.3483    0.3388   -0.3445    0.0039    1

###            No.5                ###
# Bravais type
 Orthorhombic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.2165    2.0802    0.7996   95.8715   96.4541   88.3836      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.3316    2.0106    0.7470   90.0000   90.0000   90.0000      0.0000         1.7824    2.6914
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0326    0.0127    0.0000    0.0000    0.0000      0.0000         0.0302    0.0463
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.3536   -0.2320    0.7111)
 a2 = (   -0.0578   -0.4615   -0.1313)
 a3 = (    1.1669   -0.1458   -0.4658)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.2120   -0.2528    0.6746) (    0.0044    0.0035    0.0018)
 a2 = (   -0.1047   -0.4652   -0.1414) (    0.0036    0.0075    0.0034)
 a3 = (    1.2529   -0.1458   -0.4483) (    0.0225    0.0094    0.0068)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  107.5651  109.5651   83.3610    0.2931    0.3195    0.3883
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0004    0.0018    0.0000      0.0022    0.0023    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.7834         9.2357
# Chi-squares at the beginning and the end of the refinement
   19.4869    0.0312
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    4   -6    3   -0.3965   -0.1058   -0.3948   -0.0985    0.0074    1
    2    0   -2    0   -0.0351   -0.2802   -0.0649   -0.2885    0.0309    0
    3    2    0    1   -0.4615    0.1502   -0.4653    0.1876    0.0377    0
    4    1    3    0   -0.0216    0.1938    0.0088    0.1499    0.0533    0
    5    4    6    3   -0.0793    0.0718   -0.0615    0.0665    0.0185    0
    6    1   -3    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7   -1    5   -5    0.1422    0.0296    0.1477    0.0591    0.0301    0
    8   -2    0   -4    0.0790   -0.0154    0.0790   -0.0154    0.0000    1
    9    2    0   -5    0.7297   -0.0377    0.6879   -0.0069    0.0518    0
   10    1   -5   -1    0.1845   -0.7818    0.1845   -0.7818    0.0000    1
   11   -1   -5   -1    0.0580   -0.1266    0.0532   -0.1549    0.0288    0
   12    0   -6   -4    0.3830   -0.2972    0.3747   -0.2907    0.0105    1
   13    1   -5    1   -0.2332   -0.2487   -0.2415   -0.2352    0.0158    1
   14    1   -1    1   -0.2380   -0.0126   -0.2334   -0.0072    0.0071    1
   15   -1    5   -4    0.0865    0.0243    0.0894    0.0482    0.0241    0
   16    1    5   -1    0.0826    0.1793    0.0758    0.1206    0.0591    0
   17    0   -6   -1    0.1121   -0.3986    0.1219   -0.4292    0.0321    0
   18    2   -6    1   -0.4038   -0.3925   -0.4045   -0.3765    0.0161    1
   19    0   -2   -1    0.3407   -0.3464    0.3388   -0.3445    0.0027    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    4   -6    3   -0.3951   -0.0994   -0.3948   -0.0985    0.0010    1
    2    0   -2    0   -0.0655   -0.2876   -0.0649   -0.2885    0.0011    1
    3    2    0    1   -0.4673    0.1832   -0.4653    0.1876    0.0048    1
    4    1    3    0    0.0090    0.1531    0.0088    0.1499    0.0031    1
    5    4    6    3   -0.0598    0.0651   -0.0615    0.0665    0.0022    1
    6    1   -3    0   -0.3658   -0.7917   -0.3626   -0.7930    0.0034    1
    7    0    6   -4    0.1448    0.0586    0.1477    0.0591    0.0029    1
    8   -2    0   -4    0.0781   -0.0140    0.0790   -0.0154    0.0017    1
    9    2    0   -4    0.6844   -0.0098    0.6879   -0.0069    0.0045    1
   10    1   -5   -1    0.1819   -0.7805    0.1845   -0.7818    0.0029    1
   11   -1   -5   -1    0.0541   -0.1559    0.0532   -0.1549    0.0013    1
   12    0   -6   -4    0.3780   -0.2896    0.3747   -0.2907    0.0035    1
   13    1   -5    1   -0.2425   -0.2328   -0.2415   -0.2352    0.0026    1
   14    1   -1    1   -0.2343   -0.0081   -0.2334   -0.0072    0.0014    1
   15    0    2   -1    0.0874    0.0489    0.0894    0.0482    0.0021    1
   16    1    5   -1    0.0774    0.1227    0.0758    0.1206    0.0026    1
   17    0   -6   -1    0.0894   -0.4207    0.1219   -0.4292    0.0335    0
   18    2   -6    1   -0.4081   -0.3767   -0.4045   -0.3765    0.0036    1
   19    0   -2   -1    0.3391   -0.3484    0.3388   -0.3445    0.0040    1

###            No.12                ###
# Bravais type
 Orthorhombic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.3878    2.7628    0.5218   90.2803   91.4147   90.2004      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.3894    2.7697    0.5197   90.0000   90.0000   90.0000      0.0000         2.6734    5.3293
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0482    0.0109    0.0000    0.0000    0.0000      0.0000         0.0560    0.1127
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.1499   -0.6744   -0.2056)
 a2 = (   -0.1032    0.1207   -0.3252)
 a3 = (    1.7810   -0.2434   -0.6663)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.1537   -0.6728   -0.2044) (    0.0055    0.0015    0.0036)
 a2 = (   -0.1018    0.1218   -0.3243) (    0.0038    0.0026    0.0056)
 a3 = (    1.7997   -0.2151   -0.6458) (    0.0394    0.0194    0.0138)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -162.4550  109.6123   83.1859    0.3253    0.4247    0.5368
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0005    0.0015    0.0000      0.0023    0.0039    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         3.5489         4.1975
# Chi-squares at the beginning and the end of the refinement
    0.2401    0.1636
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -4    1   -0.3948   -0.0985   -0.3948   -0.0985    0.0000    1
    2   -2    0    0   -0.0646   -0.2905   -0.0649   -0.2885    0.0021    1
    3    0   -6    1   -0.4605    0.1857   -0.4653    0.1876    0.0052    1
    4    1   -1    0    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5    2   -4    1   -0.0536    0.0587   -0.0615    0.0665    0.0111    1
    6   -1   -1    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    4    0   -3    0.1784    0.0591    0.1477    0.0591    0.0307    0
    8   -1    5   -3    0.0902   -0.0317    0.0790   -0.0154    0.0197    0
    9    0   -4   -3    0.6677   -0.0335    0.6879   -0.0069    0.0334    0
   10   -5   -3   -1    0.1735   -0.7823    0.1845   -0.7818    0.0110    1
   11   -5    3   -1    0.0547   -0.1622    0.0532   -0.1549    0.0075    1
   12   -4    0   -3    0.3908   -0.2824    0.3747   -0.2907    0.0181    1
   13   -5   -3    1   -0.2417   -0.2354   -0.2415   -0.2352    0.0002    1
   14   -1   -3    1   -0.2296   -0.0071   -0.2334   -0.0072    0.0037    1
   15    2    0   -1    0.0956    0.0508    0.0894    0.0482    0.0067    1
   16    5   -3   -1    0.0797    0.1252    0.0758    0.1206    0.0060    1
   17   -6    0   -1    0.0873   -0.4250    0.1219   -0.4292    0.0348    0
   18   -6   -6    1   -0.4081   -0.3807   -0.4045   -0.3765    0.0056    1
   19   -2    0   -1    0.3375   -0.3628    0.3388   -0.3445    0.0184    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -4    1   -0.3961   -0.0998   -0.3948   -0.0985    0.0018    1
    2   -2    0    0   -0.0664   -0.2873   -0.0649   -0.2885    0.0020    1
    3    0   -6    1   -0.4677    0.1848   -0.4653    0.1876    0.0037    1
    4    1   -1    0    0.0094    0.1517    0.0088    0.1499    0.0019    1
    5    2   -4    1   -0.0595    0.0651   -0.0615    0.0665    0.0025    1
    6   -1   -1    0   -0.3667   -0.7882   -0.3626   -0.7930    0.0063    1
    7    4    0   -3    0.1665    0.0582    0.1477    0.0591    0.0188    0
    8   -1    5   -3    0.0809   -0.0258    0.0790   -0.0154    0.0105    1
    9    0   -4   -3    0.6469   -0.0190    0.6879   -0.0069    0.0428    0
   10   -5   -3   -1    0.1761   -0.7804    0.1845   -0.7818    0.0085    1
   11   -5    3   -1    0.0531   -0.1566    0.0532   -0.1549    0.0016    1
   12   -4    0   -3    0.3870   -0.2687    0.3747   -0.2907    0.0252    0
   13   -5   -3    1   -0.2426   -0.2331   -0.2415   -0.2352    0.0024    1
   14   -1   -3    1   -0.2353   -0.0081   -0.2334   -0.0072    0.0022    1
   15    2    0   -1    0.0869    0.0483    0.0894    0.0482    0.0025    1
   16    5   -3   -1    0.0768    0.1215    0.0758    0.1206    0.0014    1
   17   -6    0   -1    0.0867   -0.4209    0.1219   -0.4292    0.0361    0
   18   -6   -6    1   -0.4079   -0.3764   -0.4045   -0.3765    0.0035    1
   19   -2    0   -1    0.3371   -0.3515    0.3388   -0.3445    0.0073    1

###            No.14                ###
# Bravais type
 Orthorhombic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.3957    2.7302    0.5256   91.0028   92.2018   91.8141      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.3838    2.7539    0.5248   90.0000   90.0000   90.0000      0.0000         2.6366    5.2472
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0462    0.0099    0.0000    0.0000    0.0000      0.0000         0.0497    0.0983
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.1509   -0.6712   -0.2034)
 a2 = (   -0.1049    0.1118   -0.3329)
 a3 = (    1.7574   -0.2675   -0.6829)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.1473   -0.6764   -0.2074) (    0.0045    0.0014    0.0034)
 a2 = (   -0.1044    0.1225   -0.3255) (    0.0035    0.0026    0.0054)
 a3 = (    1.7832   -0.1910   -0.6437) (    0.0356    0.0143    0.0124)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -162.2480  109.7447   83.8867    0.3051    0.3834    0.4200
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
    0.0008    0.0073    0.0000      0.0022    0.0026    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.5518         4.0263
# Chi-squares at the beginning and the end of the refinement
    0.7351    0.1885
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -4    1   -0.4002   -0.1013   -0.3948   -0.0985    0.0061    1
    2   -2    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0   -6    1   -0.4770    0.1875   -0.4653    0.1876    0.0117    1
    4    1   -1    0    0.0097    0.1648    0.0088    0.1499    0.0149    1
    5    2   -4    1   -0.0586    0.0642   -0.0615    0.0665    0.0038    1
    6   -1   -1    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    5   -1   -2    0.1094    0.0771    0.1477    0.0591    0.0423    0
    8   -1    5   -3    0.0921   -0.0332    0.0790   -0.0154    0.0221    0
    9    0   -4   -3    0.6929   -0.0507    0.6879   -0.0069    0.0441    0
   10   -5   -3   -1    0.1646   -0.7863    0.1845   -0.7818    0.0204    1
   11   -5    3   -1    0.0531   -0.1595    0.0532   -0.1549    0.0045    1
   12   -4    0   -3    0.3935   -0.2939    0.3747   -0.2907    0.0191    1
   13   -5   -3    1   -0.2420   -0.2357   -0.2415   -0.2352    0.0006    1
   14   -1   -3    1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    5    1   -3    0.0984    0.0392    0.0894    0.0482    0.0127    1
   16    5   -3   -1    0.0882    0.1375    0.0758    0.1206    0.0210    0
   17   -6    0   -1    0.0846   -0.4264    0.1219   -0.4292    0.0374    0
   18   -6   -6    1   -0.4095   -0.3842   -0.4045   -0.3765    0.0092    1
   19   -2    0   -1    0.3367   -0.3724    0.3388   -0.3445    0.0280    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -4    1   -0.4001   -0.1006   -0.3948   -0.0985    0.0057    1
    2   -2    0    0   -0.0629   -0.2854   -0.0649   -0.2885    0.0037    1
    3    0   -6    1   -0.4726    0.1893   -0.4653    0.1876    0.0075    1
    4    1   -1    0    0.0088    0.1547    0.0088    0.1499    0.0048    1
    5    2   -4    1   -0.0589    0.0711   -0.0615    0.0665    0.0053    1
    6   -1   -1    0   -0.3615   -0.7901   -0.3626   -0.7930    0.0031    1
    7    4    0   -3    0.1651    0.0663    0.1477    0.0591    0.0189    0
    8   -1    5   -3    0.0816   -0.0189    0.0790   -0.0154    0.0043    1
    9    0   -4   -3    0.6562   -0.0037    0.6879   -0.0069    0.0319    0
   10   -5   -3   -1    0.1811   -0.7804    0.1845   -0.7818    0.0037    1
   11   -5    3   -1    0.0559   -0.1523    0.0532   -0.1549    0.0038    1
   12   -4    0   -3    0.3942   -0.2636    0.3747   -0.2907    0.0334    0
   13   -5   -3    1   -0.2417   -0.2344   -0.2415   -0.2352    0.0008    1
   14   -1   -3    1   -0.2393   -0.0053   -0.2334   -0.0072    0.0062    1
   15    2    0   -1    0.0848    0.0543    0.0894    0.0482    0.0076    1
   16    5   -3   -1    0.0742    0.1257    0.0758    0.1206    0.0054    1
   17   -6    0   -1    0.0908   -0.4179    0.1219   -0.4292    0.0330    0
   18   -6   -6    1   -0.4063   -0.3799   -0.4045   -0.3765    0.0038    1
   19   -2    0   -1    0.3434   -0.3480    0.3388   -0.3445    0.0058    1

###            No.16                ###
# Bravais type
 Orthorhombic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.4046    2.7478    0.5188   90.6321   91.8750   91.8325      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.3882    2.7552    0.5229   90.0000   90.0000   90.0000      0.0000         2.6549    5.2690
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0564    0.0116    0.0000    0.0000    0.0000      0.0000         0.0587    0.1160
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.1499   -0.6668   -0.2021)
 a2 = (   -0.1042    0.1111   -0.3308)
 a3 = (    1.7864   -0.2645   -0.6774)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.1514   -0.6741   -0.2039) (    0.0056    0.0016    0.0041)
 a2 = (   -0.1049    0.1220   -0.3254) (    0.0044    0.0026    0.0066)
 a3 = (    1.7862   -0.2039   -0.6522) (    0.0408    0.0199    0.0158)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -162.4762  109.9402   83.4880    0.3628    0.4492    0.5545
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0002    0.0039    0.0000      0.0023    0.0041    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.9490         3.9959
# Chi-squares at the beginning and the end of the refinement
    0.4510    0.2678
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -4    1   -0.3948   -0.0985   -0.3948   -0.0985    0.0000    1
    2   -2    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0   -6    1   -0.4717    0.1821   -0.4653    0.1876    0.0084    1
    4    1   -1    0    0.0097    0.1648    0.0088    0.1499    0.0149    1
    5    2   -4    1   -0.0590    0.0633   -0.0615    0.0665    0.0042    1
    6   -1   -1    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    4    0   -3    0.1869    0.0588    0.1477    0.0591    0.0392    0
    8   -1    5   -3    0.0902   -0.0317    0.0790   -0.0154    0.0197    0
    9    0   -4   -3    0.6755   -0.0477    0.6879   -0.0069    0.0426    0
   10   -5   -3   -1    0.1735   -0.7823    0.1845   -0.7818    0.0110    1
   11   -5    3   -1    0.0543   -0.1583    0.0532   -0.1549    0.0035    1
   12   -4    0   -3    0.3904   -0.2839    0.3747   -0.2907    0.0171    1
   13   -5   -3    1   -0.2420   -0.2324   -0.2415   -0.2352    0.0029    1
   14   -1   -3    1   -0.2296   -0.0071   -0.2334   -0.0072    0.0037    1
   15    5    1   -3    0.0965    0.0377    0.0894    0.0482    0.0126    1
   16    5   -3   -1    0.0887    0.1358    0.0758    0.1206    0.0199    0
   17   -6    0   -1    0.0883   -0.4247    0.1219   -0.4292    0.0338    0
   18   -6   -6    1   -0.4092   -0.3794   -0.4045   -0.3765    0.0055    1
   19   -2    0   -1    0.3375   -0.3628    0.3388   -0.3445    0.0184    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -4    1   -0.3946   -0.0993   -0.3948   -0.0985    0.0008    1
    2   -2    0    0   -0.0649   -0.2841   -0.0649   -0.2885    0.0044    1
    3    0   -6    1   -0.4682    0.1852   -0.4653    0.1876    0.0037    1
    4    1   -1    0    0.0087    0.1560    0.0088    0.1499    0.0060    1
    5    2   -4    1   -0.0592    0.0672   -0.0615    0.0665    0.0024    1
    6   -1   -1    0   -0.3663   -0.7848   -0.3626   -0.7930    0.0090    1
    7    4    0   -3    0.1703    0.0635    0.1477    0.0591    0.0230    0
    8   -1    5   -3    0.0837   -0.0239    0.0790   -0.0154    0.0097    1
    9    0   -4   -3    0.6591   -0.0126    0.6879   -0.0069    0.0294    0
   10   -5   -3   -1    0.1749   -0.7824    0.1845   -0.7818    0.0096    1
   11   -5    3   -1    0.0537   -0.1543    0.0532   -0.1549    0.0009    1
   12   -4    0   -3    0.3927   -0.2696    0.3747   -0.2907    0.0278    0
   13   -5   -3    1   -0.2400   -0.2311   -0.2415   -0.2352    0.0044    1
   14   -1   -3    1   -0.2340   -0.0069   -0.2334   -0.0072    0.0007    1
   15    2    0   -1    0.0898    0.0532    0.0894    0.0482    0.0050    1
   16    5   -3   -1    0.0776    0.1272    0.0758    0.1206    0.0068    1
   17   -6    0   -1    0.0873   -0.4195    0.1219   -0.4292    0.0359    0
   18   -6   -6    1   -0.4051   -0.3748   -0.4045   -0.3765    0.0018    1
   19   -2    0   -1    0.3409   -0.3530    0.3388   -0.3445    0.0088    1

###            No.17                ###
# Bravais type
 Orthorhombic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.4147    2.7652    0.5123   90.7200   93.0504   88.1101      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.3806    2.7674    0.5235   90.0000   90.0000   90.0000      0.0000         2.6372    5.2864
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0475    0.0102    0.0000    0.0000    0.0000      0.0000         0.0516    0.1094
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.1490    0.6626    0.2008)
 a2 = (   -0.1036    0.1104   -0.3287)
 a3 = (   -1.8138    0.3195    0.6555)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.1502    0.6775    0.2075) (    0.0049    0.0014    0.0035)
 a2 = (   -0.1023    0.1220   -0.3244) (    0.0038    0.0026    0.0055)
 a3 = (   -1.7887    0.2006    0.6398) (    0.0371    0.0171    0.0125)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  162.2964   70.4313  -96.3973    0.3121    0.4180    0.4866
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
    0.0003    0.0065    0.0000      0.0023    0.0028    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.8004         3.9696
# Chi-squares at the beginning and the end of the refinement
    0.6430    0.2875
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -4   -1   -0.4000   -0.0894   -0.3948   -0.0985    0.0106    1
    2    2    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0   -6   -1   -0.4651    0.1875   -0.4653    0.1876    0.0003    1
    4   -1   -1    0    0.0097    0.1648    0.0088    0.1499    0.0149    1
    5   -2   -4   -1   -0.0615    0.0665   -0.0615    0.0665    0.0000    1
    6    1   -1    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7   -4    0    3    0.1786    0.0501    0.1477    0.0591    0.0323    0
    8    1    5    3    0.0791   -0.0296    0.0790   -0.0154    0.0142    1
    9   -1   -5    3    0.6704    0.0338    0.6879   -0.0069    0.0444    0
   10    5   -3    1    0.1748   -0.7612    0.1845   -0.7818    0.0228    1
   11    5    3    1    0.0528   -0.1516    0.0532   -0.1549    0.0034    1
   12    4    0    3    0.3677   -0.2738    0.3747   -0.2907    0.0183    1
   13    5   -3   -1   -0.2499   -0.2319   -0.2415   -0.2352    0.0090    1
   14    1   -3   -1   -0.2337   -0.0012   -0.2334   -0.0072    0.0059    1
   15   -2    0    1    0.0980    0.0467    0.0894    0.0482    0.0087    1
   16   -5   -3    1    0.0890    0.1316    0.0758    0.1206    0.0171    1
   17    6    0    1    0.0887   -0.4141    0.1219   -0.4292    0.0364    0
   18    6   -6   -1   -0.4187   -0.3766   -0.4045   -0.3765    0.0142    1
   19    2    0    1    0.3203   -0.3475    0.3388   -0.3445    0.0188    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -4   -1   -0.4005   -0.1004   -0.3948   -0.0985    0.0060    1
    2    2    0    0   -0.0644   -0.2855   -0.0649   -0.2885    0.0030    1
    3    0   -6   -1   -0.4722    0.1899   -0.4653    0.1876    0.0072    1
    4   -1   -1    0    0.0090    0.1521    0.0088    0.1499    0.0022    1
    5   -2   -4   -1   -0.0589    0.0702   -0.0615    0.0665    0.0046    1
    6    1   -1    0   -0.3605   -0.7870   -0.3626   -0.7930    0.0063    1
    7   -4    0    3    0.1626    0.0639    0.1477    0.0591    0.0156    1
    8    1    5    3    0.0798   -0.0197    0.0790   -0.0154    0.0044    1
    9    0   -4    3    0.6489   -0.0083    0.6879   -0.0069    0.0390    0
   10    5   -3    1    0.1777   -0.7759    0.1845   -0.7818    0.0090    1
   11    5    3    1    0.0546   -0.1532    0.0532   -0.1549    0.0023    1
   12    4    0    3    0.3894   -0.2639    0.3747   -0.2907    0.0306    0
   13    5   -3   -1   -0.2427   -0.2343   -0.2415   -0.2352    0.0015    1
   14    1   -3   -1   -0.2399   -0.0053   -0.2334   -0.0072    0.0068    1
   15   -2    0    1    0.0827    0.0520    0.0894    0.0482    0.0077    1
   16   -5   -3    1    0.0732    0.1226    0.0758    0.1206    0.0033    1
   17    6    0    1    0.0884   -0.4171    0.1219   -0.4292    0.0356    0
   18    6   -6   -1   -0.4064   -0.3791   -0.4045   -0.3765    0.0032    1
   19    2    0    1    0.3390   -0.3475    0.3388   -0.3445    0.0031    1

###            No.21                ###
# Bravais type
 Orthorhombic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.4042    2.7483    0.5186   90.3259   90.3410   88.1438      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.3862    2.7728    0.5203   90.0000   90.0000   90.0000      0.0000         2.6642    5.3290
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0487    0.0116    0.0000    0.0000    0.0000      0.0000         0.0593    0.1318
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.1499   -0.6667   -0.2020)
 a2 = (    0.1042   -0.1111    0.3307)
 a3 = (   -1.8059    0.1980    0.6472)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.1473   -0.6751   -0.2071) (    0.0052    0.0015    0.0036)
 a2 = (    0.1013   -0.1215    0.3241) (    0.0043    0.0027    0.0056)
 a3 = (   -1.8022    0.1976    0.6376) (    0.0431    0.0185    0.0133)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -17.7188   70.6247  -96.2574    0.3268    0.4899    0.5224
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
    0.0003    0.0069    0.0000      0.0023    0.0029    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         3.3036         3.8199
# Chi-squares at the beginning and the end of the refinement
    0.4404    0.1118
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    4   -1   -0.3981   -0.1091   -0.3948   -0.0985    0.0111    1
    2   -2    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0    6   -1   -0.4882    0.1736   -0.4653    0.1876    0.0269    0
    4    1    1    0    0.0097    0.1648    0.0088    0.1499    0.0149    1
    5    2    4   -1   -0.0687    0.0706   -0.0615    0.0665    0.0082    1
    6   -1    1    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    4    0    3    0.1684    0.0580    0.1477    0.0591    0.0207    0
    8   -1   -5    3    0.0771   -0.0242    0.0790   -0.0154    0.0090    1
    9    0    4    3    0.6522   -0.0195    0.6879   -0.0069    0.0379    0
   10   -5    3    1    0.1828   -0.7859    0.1845   -0.7818    0.0044    1
   11   -5   -3    1    0.0542   -0.1530    0.0532   -0.1549    0.0022    1
   12   -4    0    3    0.3914   -0.2649    0.3747   -0.2907    0.0308    0
   13   -5    3   -1   -0.2417   -0.2362   -0.2415   -0.2352    0.0010    1
   14   -1    3   -1   -0.2403   -0.0144   -0.2334   -0.0072    0.0100    1
   15    2    0    1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    5    3    1    0.0827    0.1279    0.0758    0.1206    0.0100    1
   17   -6    0    1    0.0914   -0.4232    0.1219   -0.4292    0.0311    0
   18   -6    6   -1   -0.4057   -0.3820   -0.4045   -0.3765    0.0057    1
   19   -2    0    1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    4   -1   -0.4001   -0.0997   -0.3948   -0.0985    0.0055    1
    2   -2    0    0   -0.0636   -0.2859   -0.0649   -0.2885    0.0028    1
    3    0    6   -1   -0.4721    0.1886   -0.4653    0.1876    0.0069    1
    4    1    1    0    0.0087    0.1533    0.0088    0.1499    0.0033    1
    5    2    4   -1   -0.0597    0.0707   -0.0615    0.0665    0.0046    1
    6   -1    1    0   -0.3584   -0.7916   -0.3626   -0.7930    0.0045    1
    7    4    0    3    0.1612    0.0635    0.1477    0.0591    0.0142    1
    8   -1   -5    3    0.0786   -0.0185    0.0790   -0.0154    0.0032    1
    9    0    4    3    0.6416   -0.0068    0.6879   -0.0069    0.0463    0
   10   -5    3    1    0.1856   -0.7735    0.1845   -0.7818    0.0084    1
   11   -5   -3    1    0.0555   -0.1518    0.0532   -0.1549    0.0039    1
   12   -4    0    3    0.3881   -0.2582    0.3747   -0.2907    0.0352    0
   13   -5    3   -1   -0.2432   -0.2341   -0.2415   -0.2352    0.0021    1
   14   -1    3   -1   -0.2395   -0.0051   -0.2334   -0.0072    0.0065    1
   15    2    0    1    0.0821    0.0519    0.0894    0.0482    0.0082    1
   16    5    3    1    0.0734    0.1229    0.0758    0.1206    0.0033    1
   17   -6    0    1    0.0917   -0.4159    0.1219   -0.4292    0.0330    0
   18   -6    6   -1   -0.4072   -0.3795   -0.4045   -0.3765    0.0041    1
   19   -2    0    1    0.3399   -0.3418    0.3388   -0.3445    0.0029    1

###            No.24                ###
# Bravais type
 Orthorhombic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.9718    1.9003    1.0859   92.0756   93.2294   91.7332      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.9667    1.9197    1.0778   90.0000   90.0000   90.0000      0.0000         0.8969    1.7812
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0392    0.0239    0.0000    0.0000    0.0000      0.0000         0.0199    0.0331
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.2169   -0.9648   -0.2924)
 a2 = (   -0.1508    0.1607   -0.4785)
 a3 = (    0.8422   -0.1397   -0.3509)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.2184   -0.9676   -0.2935) (    0.0071    0.0023    0.0061)
 a2 = (   -0.1472    0.1752   -0.4680) (    0.0049    0.0043    0.0096)
 a3 = (    0.8682   -0.1016   -0.3112) (    0.0201    0.0069    0.0069)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -162.4724  109.5953   83.3253    0.3746    0.3500    0.4468
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0004    0.0018    0.0000      0.0025    0.0024    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.4561         3.1615
# Chi-squares at the beginning and the end of the refinement
    1.1993    0.0356
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -4    3   -0.3831   -0.0933   -0.3948   -0.0985    0.0128    1
    2   -2    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0   -2    1   -0.4559    0.1838   -0.4653    0.1876    0.0102    1
    4    1   -1    0    0.0097    0.1648    0.0088    0.1499    0.0149    1
    5    3   -5    3   -0.0510    0.0798   -0.0615    0.0665    0.0170    1
    6   -1   -1    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    2    0   -3    0.1254    0.0640    0.1477    0.0591    0.0228    0
    8   -1    3   -4    0.0552   -0.0307    0.0790   -0.0154    0.0284    0
    9    0   -2   -5    0.6872   -0.0663    0.6879   -0.0069    0.0594    0
   10   -4   -2   -3    0.2466   -0.7189    0.1845   -0.7818    0.0884    0
   11   -4    2   -2    0.0484   -0.1929    0.0532   -0.1549    0.0382    0
   12   -2    0   -5    0.4173   -0.2904    0.3747   -0.2907    0.0426    0
   13   -4   -2    2   -0.2167   -0.2475   -0.2415   -0.2352    0.0277    0
   14   -1   -3    3   -0.2112   -0.0042   -0.2334   -0.0072    0.0223    0
   15    3    1   -5    0.0683    0.0277    0.0894    0.0482    0.0294    0
   16    5   -3   -2    0.0511    0.1109    0.0758    0.1206    0.0266    0
   17   -2    0   -1    0.0859   -0.4352    0.1219   -0.4292    0.0365    0
   18   -2   -2    1   -0.4045   -0.3765   -0.4045   -0.3765    0.0000    1
   19   -2    0   -3    0.3463   -0.3886    0.3388   -0.3445    0.0448    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -4    3   -0.3947   -0.0992   -0.3948   -0.0985    0.0007    1
    2   -2    0    0   -0.0655   -0.2868   -0.0649   -0.2885    0.0018    1
    3    0   -2    1   -0.4672    0.1833   -0.4653    0.1876    0.0047    1
    4    1   -1    0    0.0091    0.1539    0.0088    0.1499    0.0039    1
    5    2   -4    3   -0.0600    0.0654   -0.0615    0.0665    0.0019    1
    6   -1   -1    0   -0.3659   -0.7904   -0.3626   -0.7930    0.0042    1
    7    2    0   -4    0.1455    0.0589    0.1477    0.0591    0.0022    1
    8    0    2   -4    0.0784   -0.0140    0.0790   -0.0154    0.0015    1
    9    0   -2   -4    0.6855   -0.0103    0.6879   -0.0069    0.0041    1
   10   -4   -2   -2    0.1091   -0.7153    0.1845   -0.7818    0.1006    0
   11   -4    2   -2    0.0472   -0.1802    0.0532   -0.1549    0.0260    0
   12   -2    0   -4    0.3779   -0.2900    0.3747   -0.2907    0.0033    1
   13   -4   -2    2   -0.2226   -0.2520   -0.2415   -0.2352    0.0253    0
   14   -1   -3    3   -0.2339   -0.0080   -0.2334   -0.0072    0.0010    1
   15    2    0   -3    0.0881    0.0492    0.0894    0.0482    0.0017    1
   16    4   -2   -3    0.0866    0.1087    0.0758    0.1206    0.0160    1
   17   -2    0   -1    0.0890   -0.4202    0.1219   -0.4292    0.0340    0
   18   -2   -2    1   -0.4077   -0.3759   -0.4045   -0.3765    0.0032    1
   19   -2    0   -3    0.3389   -0.3487    0.3388   -0.3445    0.0043    1

###                                ###
### Candidates for Orthorhombic(P) ###
###                                ###

###            No.1                ###
# Bravais type
 Orthorhombic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.8346    0.9410    1.2735   89.6629   89.1596   89.5532      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.8390    0.9421    1.2651   90.0000   90.0000   90.0000      0.0000         0.6631    0.7447
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0159    0.0201    0.0000    0.0000    0.0000      0.0000         0.0105    0.0123
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.3363    0.3853   -1.0837)
 a2 = (   -0.9952    0.1091    0.3567)
 a3 = (    0.1652    0.7348    0.2227)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.3364    0.4012   -1.0707) (    0.0070    0.0055    0.0027)
 a2 = (   -0.9932    0.1164    0.3557) (    0.0177    0.0073    0.0054)
 a3 = (    0.1670    0.7392    0.2245) (    0.0054    0.0116    0.0054)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -69.5416   73.4976  167.2671    0.3299    0.2652    0.3529
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0005    0.0018    0.0000      0.0022    0.0023    0.0000

# Number of computed bands
            277            270
# Figure of merit at the beginning and the end of the refinement
         9.6586        16.7649
# Chi-squares at the beginning and the end of the refinement
    0.4629    0.0352
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -3    3   -0.3969   -0.1057   -0.3948   -0.0985    0.0075    1
    2    0    0    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1   -1    0   -0.4799    0.1782   -0.4653    0.1876    0.0173    1
    4   -1    0   -3    0.0098    0.1599    0.0088    0.1499    0.0100    1
    5   -2   -3   -3   -0.0649    0.0678   -0.0615    0.0665    0.0036    1
    6   -1    0    3   -0.3642   -0.7964   -0.3626   -0.7930    0.0038    1
    7    0    4   -3    0.1466    0.0579    0.1477    0.0591    0.0016    1
    8    1    4    0    0.0767   -0.0146    0.0790   -0.0154    0.0025    1
    9   -1    4    0    0.6887   -0.0097    0.6879   -0.0069    0.0028    1
   10   -1    2    5    0.1856   -0.7861    0.1845   -0.7818    0.0044    1
   11    1    2    5    0.0543   -0.1547    0.0532   -0.1549    0.0011    1
   12    0    4    3    0.3818   -0.2893    0.3747   -0.2907    0.0072    1
   13   -1   -2    5   -0.2415   -0.2352   -0.2415   -0.2352    0.0000    1
   14   -1   -2    1   -0.2373   -0.0125   -0.2334   -0.0072    0.0067    1
   15    0    1   -1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1    2   -5    0.0811    0.1256    0.0758    0.1206    0.0073    1
   17    0    2    5    0.1289   -0.4308    0.1219   -0.4292    0.0072    1
   18   -1   -1    3   -0.4070   -0.3810   -0.4045   -0.3765    0.0051    1
   19    0    1    1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -3    3   -0.3953   -0.0995   -0.3948   -0.0985    0.0011    1
    2    0    0    1   -0.0658   -0.2872   -0.0649   -0.2885    0.0016    1
    3   -1   -1    0   -0.4675    0.1836   -0.4653    0.1876    0.0046    1
    4   -1    0   -3    0.0090    0.1529    0.0088    0.1499    0.0029    1
    5   -2   -3   -3   -0.0599    0.0652   -0.0615    0.0665    0.0021    1
    6   -1    0    3   -0.3657   -0.7901   -0.3626   -0.7930    0.0042    1
    7    0    4   -3    0.1447    0.0587    0.1477    0.0591    0.0031    1
    8    1    4    0    0.0780   -0.0140    0.0790   -0.0154    0.0017    1
    9   -1    4    0    0.6850   -0.0103    0.6879   -0.0069    0.0045    1
   10   -1    2    5    0.1800   -0.7799    0.1845   -0.7818    0.0049    1
   11    1    2    5    0.0536   -0.1559    0.0532   -0.1549    0.0010    1
   12    0    4    3    0.3775   -0.2904    0.3747   -0.2907    0.0028    1
   13   -1   -2    5   -0.2424   -0.2327   -0.2415   -0.2352    0.0027    1
   14   -1   -2    1   -0.2346   -0.0081   -0.2334   -0.0072    0.0015    1
   15    0    1   -1    0.0872    0.0489    0.0894    0.0482    0.0023    1
   16   -1    2   -5    0.0771    0.1225    0.0758    0.1206    0.0023    1
   17    0    2    5    0.1254   -0.4281    0.1219   -0.4292    0.0037    1
   18   -1   -1    3   -0.4078   -0.3764   -0.4045   -0.3765    0.0033    1
   19    0    1    1    0.3383   -0.3491    0.3388   -0.3445    0.0047    1

###            No.2                ###
# Bravais type
 Orthorhombic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.8234    0.9473    1.2847   89.6506   86.2705   89.6993      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.8390    0.9421    1.2651   90.0000   90.0000   90.0000      0.0000         0.6631    0.7447
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0159    0.0201    0.0000    0.0000    0.0000      0.0000         0.0105    0.0123
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.3353    0.4829   -1.0656)
 a2 = (    0.9885   -0.1084   -0.3542)
 a3 = (   -0.1641   -0.7298   -0.2212)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.3364    0.4012   -1.0707) (    0.0070    0.0055    0.0027)
 a2 = (    0.9932   -0.1164   -0.3557) (    0.0177    0.0073    0.0054)
 a3 = (   -0.1670   -0.7392   -0.2245) (    0.0054    0.0116    0.0054)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -110.4584  106.5024  -12.7329    0.3299    0.2652    0.3529
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0005    0.0018    0.0000      0.0022    0.0023    0.0000

# Number of computed bands
            400            270
# Figure of merit at the beginning and the end of the refinement
         2.7725        16.7649
# Chi-squares at the beginning and the end of the refinement
    6.7006    0.0352
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    3   -3   -0.4006   -0.0872   -0.3948   -0.0985    0.0127    1
    2    0    0   -1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1    1    0   -0.4480    0.2001   -0.4653    0.1876    0.0214    1
    4   -1    0    3    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5   -2    3    3   -0.0579    0.0641   -0.0615    0.0665    0.0044    1
    6   -1    0   -4   -0.2795   -0.6867   -0.3626   -0.7930    0.1349    0
    7    0   -4    3    0.1466    0.0579    0.1477    0.0591    0.0016    1
    8    1   -4    0    0.0783   -0.0167    0.0790   -0.0154    0.0015    1
    9   -1   -4    0    0.6859    0.0094    0.6879   -0.0069    0.0164    1
   10   -1   -2   -5    0.1952   -0.8039    0.1845   -0.7818    0.0245    1
   11    1   -2   -5    0.0528   -0.1541    0.0532   -0.1549    0.0009    1
   12    0   -4   -3    0.3818   -0.2893    0.3747   -0.2907    0.0072    1
   13   -1    2   -5   -0.2476   -0.2331   -0.2415   -0.2352    0.0064    1
   14   -1    2   -1   -0.2335   -0.0029   -0.2334   -0.0072    0.0043    1
   15    0   -1    1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1   -2    5    0.0769    0.1223    0.0758    0.1206    0.0020    1
   17    0   -2   -5    0.1289   -0.4308    0.1219   -0.4292    0.0072    1
   18   -1    1   -3   -0.4266   -0.3755   -0.4045   -0.3765    0.0222    1
   19    0   -1   -1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    3   -3   -0.3953   -0.0995   -0.3948   -0.0985    0.0011    1
    2    0    0   -1   -0.0658   -0.2872   -0.0649   -0.2885    0.0016    1
    3   -1    1    0   -0.4675    0.1836   -0.4653    0.1876    0.0046    1
    4   -1    0    3    0.0090    0.1529    0.0088    0.1499    0.0029    1
    5   -2    3    3   -0.0599    0.0652   -0.0615    0.0665    0.0021    1
    6   -1    0   -3   -0.3657   -0.7901   -0.3626   -0.7930    0.0042    1
    7    0   -4    3    0.1447    0.0587    0.1477    0.0591    0.0031    1
    8    1   -4    0    0.0780   -0.0140    0.0790   -0.0154    0.0017    1
    9   -1   -4    0    0.6850   -0.0103    0.6879   -0.0069    0.0045    1
   10   -1   -2   -5    0.1800   -0.7799    0.1845   -0.7818    0.0049    1
   11    1   -2   -5    0.0536   -0.1559    0.0532   -0.1549    0.0010    1
   12    0   -4   -3    0.3775   -0.2904    0.3747   -0.2907    0.0028    1
   13   -1    2   -5   -0.2424   -0.2327   -0.2415   -0.2352    0.0027    1
   14   -1    2   -1   -0.2346   -0.0081   -0.2334   -0.0072    0.0015    1
   15    0   -1    1    0.0872    0.0489    0.0894    0.0482    0.0023    1
   16   -1   -2    5    0.0771    0.1225    0.0758    0.1206    0.0023    1
   17    0   -2   -5    0.1254   -0.4281    0.1219   -0.4292    0.0037    1
   18   -1    1   -3   -0.4078   -0.3764   -0.4045   -0.3765    0.0033    1
   19    0   -1   -1    0.3383   -0.3491    0.3388   -0.3445    0.0047    1

###            No.4                ###
# Bravais type
 Orthorhombic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.3978    1.1175    2.2513   91.3642   90.3007   91.8378      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.4115    1.1057    2.1979   90.0000   90.0000   90.0000      0.0000         0.1872    0.5031
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0186    0.0378    0.0000    0.0000    0.0000      0.0000         0.0032    0.0083
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    2.3679   -0.1958   -0.8247)
 a2 = (    0.1884    0.8379    0.2539)
 a3 = (    0.1310   -0.1396    0.4010)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    2.2742   -0.2668   -0.8143) (    0.0043    0.0152    0.0126)
 a2 = (    0.1913    0.8457    0.2571) (    0.0059    0.0144    0.0062)
 a3 = (    0.1284   -0.1533    0.4087) (    0.0043    0.0034    0.0066)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -49.6925   26.0651   39.9499    0.6614    0.3003    0.7729
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0006    0.0018    0.0000      0.0022    0.0023    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.0828         6.6650
# Chi-squares at the beginning and the end of the refinement
    2.1053    0.0362
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    1    2    4   -0.3648   -0.1029   -0.3948   -0.0985    0.0303    0
    2    0    1    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    1    0    6   -0.4528    0.1483   -0.4653    0.1876    0.0412    0
    4    0   -1    1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5    1   -2    4   -0.0558    0.0539   -0.0615    0.0665    0.0139    1
    6    0    1    1   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7   -2   -3    0    0.1443    0.0578    0.1477    0.0591    0.0036    1
    8   -2    0   -3    0.0849   -0.0134    0.0790   -0.0154    0.0062    1
    9   -2    0    3    0.6568    0.0041    0.6879   -0.0069    0.0331    0
   10   -1    5    3    0.2028   -0.7785    0.1845   -0.7818    0.0186    1
   11   -1    5   -3    0.0614   -0.1623    0.0532   -0.1549    0.0111    1
   12   -2    3    0    0.3893   -0.2712    0.3747   -0.2907    0.0244    0
   13    1    5    3   -0.2303   -0.2224   -0.2415   -0.2352    0.0171    1
   14    1    1    3   -0.2131   -0.0161   -0.2334   -0.0072    0.0221    0
   15   -1   -2    0    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1   -5    3    0.0790    0.1196    0.0758    0.1206    0.0034    1
   17   -1    5    0    0.1405   -0.4319    0.1219   -0.4292    0.0188    1
   18    1    5    5   -0.3654   -0.3038   -0.4045   -0.3765    0.0826    0
   19   -1    2    0    0.3553   -0.3340    0.3388   -0.3445    0.0196    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    1    2    4   -0.3957   -0.0994   -0.3948   -0.0985    0.0012    1
    2    0    1    0   -0.0660   -0.2874   -0.0649   -0.2885    0.0015    1
    3    1    0    6   -0.4677    0.1838   -0.4653    0.1876    0.0045    1
    4    0   -1    1    0.0089    0.1530    0.0088    0.1499    0.0030    1
    5    1   -2    4   -0.0600    0.0653   -0.0615    0.0665    0.0019    1
    6    0    1    1   -0.3664   -0.7908   -0.3626   -0.7930    0.0044    1
    7   -2   -3    0    0.1446    0.0586    0.1477    0.0591    0.0031    1
    8   -2    0   -3    0.0778   -0.0140    0.0790   -0.0154    0.0018    1
    9   -2    0    3    0.6849   -0.0104    0.6879   -0.0069    0.0046    1
   10   -1    5    3    0.1802   -0.7805    0.1845   -0.7818    0.0044    1
   11   -1    5   -3    0.0536   -0.1559    0.0532   -0.1549    0.0011    1
   12   -2    3    0    0.3775   -0.2904    0.3747   -0.2907    0.0028    1
   13    1    5    3   -0.2427   -0.2328   -0.2415   -0.2352    0.0027    1
   14    1    1    3   -0.2348   -0.0080   -0.2334   -0.0072    0.0017    1
   15   -1   -2    0    0.0872    0.0488    0.0894    0.0482    0.0023    1
   16   -1   -5    3    0.0771    0.1225    0.0758    0.1206    0.0023    1
   17   -1    5    0    0.1255   -0.4283    0.1219   -0.4292    0.0037    1
   18    1    5    5   -0.3869   -0.3170   -0.4045   -0.3765    0.0620    0
   19   -1    2    0    0.3384   -0.3492    0.3388   -0.3445    0.0047    1

###            No.5                ###
# Bravais type
 Orthorhombic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.4171    1.0920    2.1986   88.6202   89.8550   87.3470      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.4115    1.1057    2.1979   90.0000   90.0000   90.0000      0.0000         0.1872    0.5031
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0186    0.0378    0.0000    0.0000    0.0000      0.0000         0.0032    0.0083
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -2.2170    0.3607    0.8459)
 a2 = (   -0.1929   -0.8580   -0.2600)
 a3 = (    0.1341   -0.1429    0.4106)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -2.2742    0.2668    0.8143) (    0.0043    0.0152    0.0126)
 a2 = (   -0.1913   -0.8457   -0.2571) (    0.0059    0.0144    0.0062)
 a3 = (    0.1284   -0.1533    0.4087) (    0.0043    0.0034    0.0066)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  130.3075   26.0651   39.9499    0.6614    0.3003    0.7729
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0006    0.0018    0.0000      0.0022    0.0023    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.5254         6.6650
# Chi-squares at the beginning and the end of the refinement
    2.0079    0.0362
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1   -2    4   -0.3948   -0.0985   -0.3948   -0.0985    0.0000    1
    2    0   -1    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1    0    6   -0.4605    0.1857   -0.4653    0.1876    0.0052    1
    4    0    1    1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5   -1    2    4   -0.0519    0.0580   -0.0615    0.0665    0.0129    1
    6    0   -1    1   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7    2    3    0    0.1600    0.0591    0.1477    0.0591    0.0123    1
    8    2    0   -3    0.0900   -0.0214    0.0790   -0.0154    0.0125    1
    9    2    0    3    0.7213   -0.0524    0.6879   -0.0069    0.0564    0
   10    1   -5    3    0.1549   -0.7689    0.1845   -0.7818    0.0323    0
   11    1   -5   -3    0.0530   -0.1627    0.0532   -0.1549    0.0078    1
   12    2   -3    0    0.3705   -0.3166    0.3747   -0.2907    0.0262    0
   13   -1   -5    3   -0.2408   -0.2352   -0.2415   -0.2352    0.0008    1
   14   -1   -1    3   -0.2296   -0.0056   -0.2334   -0.0072    0.0041    1
   15    1    2    0    0.0985    0.0513    0.0894    0.0482    0.0095    1
   16    1    5    3    0.0809    0.1268    0.0758    0.1206    0.0080    1
   17    1   -5    0    0.1159   -0.4302    0.1219   -0.4292    0.0061    1
   18   -1   -5    6   -0.4593   -0.3539   -0.4045   -0.3765    0.0593    0
   19    1   -2    0    0.3263   -0.3700    0.3388   -0.3445    0.0284    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1   -2    4   -0.3957   -0.0994   -0.3948   -0.0985    0.0012    1
    2    0   -1    0   -0.0660   -0.2874   -0.0649   -0.2885    0.0015    1
    3   -1    0    6   -0.4677    0.1838   -0.4653    0.1876    0.0045    1
    4    0    1    1    0.0089    0.1530    0.0088    0.1499    0.0030    1
    5   -1    2    4   -0.0600    0.0653   -0.0615    0.0665    0.0019    1
    6    0   -1    1   -0.3664   -0.7908   -0.3626   -0.7930    0.0044    1
    7    2    3    0    0.1446    0.0586    0.1477    0.0591    0.0031    1
    8    2    0   -3    0.0778   -0.0140    0.0790   -0.0154    0.0018    1
    9    2    0    3    0.6849   -0.0104    0.6879   -0.0069    0.0046    1
   10    1   -5    3    0.1802   -0.7805    0.1845   -0.7818    0.0044    1
   11    1   -5   -3    0.0536   -0.1559    0.0532   -0.1549    0.0011    1
   12    2   -3    0    0.3775   -0.2904    0.3747   -0.2907    0.0028    1
   13   -1   -5    3   -0.2427   -0.2328   -0.2415   -0.2352    0.0027    1
   14   -1   -1    3   -0.2348   -0.0080   -0.2334   -0.0072    0.0017    1
   15    1    2    0    0.0872    0.0488    0.0894    0.0482    0.0023    1
   16    1    5    3    0.0771    0.1225    0.0758    0.1206    0.0023    1
   17    1   -5    0    0.1255   -0.4283    0.1219   -0.4292    0.0037    1
   18   -1   -5    5   -0.3869   -0.3170   -0.4045   -0.3765    0.0620    0
   19    1   -2    0    0.3384   -0.3492    0.3388   -0.3445    0.0047    1

###            No.6                ###
# Bravais type
 Orthorhombic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.5928    1.0726    1.5810   86.9157   87.3291   85.5813      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.5927    1.0599    1.5918   90.0000   90.0000   90.0000      0.0000         0.3724    0.6659
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0189    0.0280    0.0000    0.0000    0.0000      0.0000         0.0065    0.0106
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    1.5831   -0.1541   -0.5810)
 a2 = (    0.2164   -0.2784    0.8674)
 a3 = (   -0.1537   -0.5868   -0.1845)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    1.5786   -0.1844   -0.5660) (    0.0030    0.0109    0.0088)
 a2 = (    0.2666   -0.3183    0.8472) (    0.0091    0.0071    0.0144)
 a3 = (   -0.1328   -0.5874   -0.1789) (    0.0042    0.0105    0.0043)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -20.4846  106.5479  -12.7373    0.3314    0.2660    0.3742
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0017    0.0000      0.0022    0.0023    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.3290         6.4155
# Chi-squares at the beginning and the end of the refinement
    2.4099    0.0646
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    3   -4   -0.4578   -0.1244   -0.3948   -0.0985    0.0681    0
    2    0    0   -1   -0.0771   -0.2942   -0.0649   -0.2885    0.0135    1
    3    1    2    0   -0.5090    0.1795   -0.4653    0.1876    0.0444    0
    4    0    1    3    0.0182    0.1518    0.0088    0.1499    0.0096    1
    5    2    3    5   -0.0609    0.0815   -0.0615    0.0665    0.0150    1
    6    0    1   -3   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7   -2    0    3    0.1446    0.0579    0.1477    0.0591    0.0033    1
    8   -2   -1    0    0.0846   -0.0147    0.0790   -0.0154    0.0056    1
    9   -2    1    0    0.6879   -0.0069    0.6879   -0.0069    0.0000    1
   10   -1    1   -5    0.1718   -0.8073    0.1845   -0.7818    0.0284    1
   11   -1   -1   -5    0.0529   -0.1728    0.0532   -0.1549    0.0178    1
   12   -2    0   -3    0.4002   -0.3060    0.3747   -0.2907    0.0297    0
   13    1    1   -5   -0.2415   -0.2352   -0.2415   -0.2352    0.0000    1
   14    1    1   -1   -0.2396   -0.0189   -0.2334   -0.0072    0.0133    1
   15   -1    0    2    0.0869    0.0469    0.0894    0.0482    0.0029    1
   16   -1    1    5    0.0807    0.1156    0.0758    0.1206    0.0070    1
   17   -1    0   -5    0.1201   -0.4552    0.1219   -0.4292    0.0261    0
   18    1    2   -6   -0.4019   -0.3843   -0.4045   -0.3765    0.0082    1
   19   -1    0   -2    0.3575   -0.3721    0.3388   -0.3445    0.0333    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    3   -4   -0.4507   -0.1012   -0.3948   -0.0985    0.0560    0
    2    0    0   -1   -0.0662   -0.2882   -0.0649   -0.2885    0.0014    1
    3    1    2    0   -0.4649    0.1822   -0.4653    0.1876    0.0055    1
    4    0    1    3    0.0088    0.1503    0.0088    0.1499    0.0003    1
    5    2    3    5   -0.0592    0.0773   -0.0615    0.0665    0.0111    1
    6    0    1   -3   -0.3648   -0.7892   -0.3626   -0.7930    0.0044    1
    7   -2    0    3    0.1444    0.0585    0.1477    0.0591    0.0033    1
    8   -2   -1    0    0.0793   -0.0144    0.0790   -0.0154    0.0010    1
    9   -2    1    0    0.6838   -0.0103    0.6879   -0.0069    0.0053    1
   10   -1    1   -5    0.1801   -0.7799    0.1845   -0.7818    0.0048    1
   11   -1   -1   -5    0.0541   -0.1579    0.0532   -0.1549    0.0031    1
   12   -2    0   -3    0.3782   -0.2910    0.3747   -0.2907    0.0035    1
   13    1    1   -5   -0.2421   -0.2326   -0.2415   -0.2352    0.0027    1
   14    1    1   -1   -0.2329   -0.0083   -0.2334   -0.0072    0.0012    1
   15   -1    0    2    0.0869    0.0487    0.0894    0.0482    0.0026    1
   16   -1    1    5    0.0762    0.1211    0.0758    0.1206    0.0006    1
   17   -1    0   -5    0.1256   -0.4293    0.1219   -0.4292    0.0038    1
   18    1    2   -6   -0.4069   -0.3759   -0.4045   -0.3765    0.0025    1
   19   -1    0   -2    0.3390   -0.3499    0.3388   -0.3445    0.0054    1

###            No.9                ###
# Bravais type
 Orthorhombic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.5893    1.0261    1.6566   87.3248   88.1028   88.8416      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.5927    1.0599    1.5918   90.0000   90.0000   90.0000      0.0000         0.3724    0.6659
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0189    0.0280    0.0000    0.0000    0.0000      0.0000         0.0065    0.0106
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -1.5987    0.1322    0.5568)
 a2 = (    0.2866   -0.3717    0.8555)
 a3 = (    0.1272    0.5657    0.1714)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -1.5786    0.1844    0.5660) (    0.0030    0.0109    0.0088)
 a2 = (    0.2666   -0.3183    0.8472) (    0.0091    0.0071    0.0144)
 a3 = (    0.1328    0.5874    0.1789) (    0.0042    0.0105    0.0043)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   20.4846   73.4521  167.2627    0.3314    0.2660    0.3742
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0017    0.0000      0.0022    0.0023    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.8241         6.4155
# Chi-squares at the beginning and the end of the refinement
    5.5095    0.0646
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    3    4   -0.4515   -0.0873   -0.3948   -0.0985    0.0578    0
    2    0    0    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1    2    0   -0.4571    0.1843   -0.4653    0.1876    0.0089    1
    4    0    1   -3    0.0076    0.1645    0.0088    0.1499    0.0147    1
    5   -2    3   -5   -0.0693    0.0852   -0.0615    0.0665    0.0202    0
    6    0    1    4   -0.2912   -0.6925   -0.3626   -0.7930    0.1232    0
    7    2    0   -3    0.1443    0.0578    0.1477    0.0591    0.0036    1
    8    2   -1    0    0.0717   -0.0131    0.0790   -0.0154    0.0077    1
    9    2    1    0    0.6756    0.0249    0.6879   -0.0069    0.0342    0
   10    1    1    5    0.2143   -0.8206    0.1845   -0.7818    0.0489    0
   11    1   -1    5    0.0551   -0.1470    0.0532   -0.1549    0.0082    1
   12    3    0    5    0.3795   -0.2942    0.3747   -0.2907    0.0059    1
   13   -1    1    5   -0.2478   -0.2285   -0.2415   -0.2352    0.0092    1
   14   -1    1    1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    1    0   -2    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    1    1   -5    0.0819    0.1289    0.0758    0.1206    0.0103    1
   17    1    0    5    0.1405   -0.4319    0.1219   -0.4292    0.0188    1
   18   -1    2    6   -0.4283   -0.3675   -0.4045   -0.3765    0.0254    0
   19    1    0    2    0.3553   -0.3340    0.3388   -0.3445    0.0196    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    3    4   -0.4507   -0.1012   -0.3948   -0.0985    0.0560    0
    2    0    0    1   -0.0662   -0.2882   -0.0649   -0.2885    0.0014    1
    3   -1    2    0   -0.4649    0.1822   -0.4653    0.1876    0.0055    1
    4    0    1   -3    0.0088    0.1503    0.0088    0.1499    0.0003    1
    5   -2    3   -5   -0.0592    0.0773   -0.0615    0.0665    0.0111    1
    6    0    1    3   -0.3648   -0.7892   -0.3626   -0.7930    0.0044    1
    7    2    0   -3    0.1444    0.0585    0.1477    0.0591    0.0033    1
    8    2   -1    0    0.0793   -0.0144    0.0790   -0.0154    0.0010    1
    9    2    1    0    0.6838   -0.0103    0.6879   -0.0069    0.0053    1
   10    1    1    5    0.1801   -0.7799    0.1845   -0.7818    0.0048    1
   11    1   -1    5    0.0541   -0.1579    0.0532   -0.1549    0.0031    1
   12    2    0    3    0.3782   -0.2910    0.3747   -0.2907    0.0035    1
   13   -1    1    5   -0.2421   -0.2326   -0.2415   -0.2352    0.0027    1
   14   -1    1    1   -0.2329   -0.0083   -0.2334   -0.0072    0.0012    1
   15    1    0   -2    0.0869    0.0487    0.0894    0.0482    0.0026    1
   16    1    1   -5    0.0762    0.1211    0.0758    0.1206    0.0006    1
   17    1    0    5    0.1256   -0.4293    0.1219   -0.4292    0.0038    1
   18   -1    2    6   -0.4069   -0.3759   -0.4045   -0.3765    0.0025    1
   19    1    0    2    0.3390   -0.3499    0.3388   -0.3445    0.0054    1

###            No.10                ###
# Bravais type
 Orthorhombic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.7590    0.8633    1.5285   88.8526   88.5760   87.4465      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.7484    0.8704    1.5350   90.0000   90.0000   90.0000      0.0000         0.4876    0.5670
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0147    0.0270    0.0000    0.0000    0.0000      0.0000         0.0086    0.0096
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.2775    1.2343    0.3741)
 a2 = (    1.0775   -0.1788   -0.3898)
 a3 = (   -0.1929    0.2056   -0.5907)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.2933    1.2487    0.3742) (    0.0078    0.0027    0.0064)
 a2 = (    1.0724   -0.1353   -0.3892) (    0.0187    0.0080    0.0076)
 a3 = (   -0.1847    0.2188   -0.5852) (    0.0059    0.0044    0.0103)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  140.4132  153.9256 -139.8211    0.6992    0.3009    0.8091
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0016    0.0027    0.0000      0.0022    0.0023    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.8857         3.3220
# Chi-squares at the beginning and the end of the refinement
    1.0260    0.3868
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    3   -4   -0.4020   -0.0979   -0.3948   -0.0985    0.0073    1
    2    1    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0    1   -2   -0.4653    0.1876   -0.4653    0.1876    0.0000    1
    4   -1    0   -1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5   -2    3   -4   -0.0579    0.0642   -0.0615    0.0665    0.0044    1
    6    1    0   -1   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7   -1   -2    0    0.1475    0.0532    0.1477    0.0591    0.0059    1
    8    0   -2    1    0.0761   -0.0182    0.0790   -0.0154    0.0041    1
    9    0   -2   -1    0.6942   -0.0537    0.6879   -0.0069    0.0472    0
   10    3   -2   -2    0.2035   -0.7927    0.1845   -0.7818    0.0218    1
   11    3   -2    2    0.0537   -0.1406    0.0532   -0.1549    0.0144    1
   12    1   -2    0    0.3575   -0.3031    0.3747   -0.2907    0.0212    1
   13    3    2   -2   -0.2572   -0.2237   -0.2415   -0.2352    0.0194    1
   14    1    3   -3   -0.2388   -0.0047   -0.2334   -0.0072    0.0060    1
   15   -2   -3    0    0.0882    0.0450    0.0894    0.0482    0.0034    1
   16   -3   -2   -2    0.1045    0.1509    0.0758    0.1206    0.0417    0
   17    3   -2    0    0.1379   -0.4234    0.1219   -0.4292    0.0170    1
   18    2    1   -2   -0.4087   -0.3805   -0.4045   -0.3765    0.0058    1
   19    2   -3    0    0.3170   -0.3557    0.3388   -0.3445    0.0246    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    3   -4   -0.3963   -0.1030   -0.3948   -0.0985    0.0047    1
    2    1    0    0   -0.0683   -0.2813   -0.0649   -0.2885    0.0079    1
    3    0    1   -2   -0.4695    0.1886   -0.4653    0.1876    0.0043    1
    4   -1    0   -1    0.0090    0.1456    0.0088    0.1499    0.0043    1
    5   -2    3   -4   -0.0574    0.0653   -0.0615    0.0665    0.0043    1
    6    1    0   -1   -0.3573   -0.7637   -0.3626   -0.7930    0.0297    1
    7   -1   -2    0    0.1412    0.0600    0.1477    0.0591    0.0066    1
    8    0   -2    1    0.0778   -0.0140    0.0790   -0.0154    0.0019    1
    9    0   -2   -1    0.6935   -0.0157    0.6879   -0.0069    0.0103    1
   10    3   -2   -2    0.2005   -0.8049    0.1845   -0.7818    0.0280    1
   11    3   -2    2    0.0515   -0.1419    0.0532   -0.1549    0.0132    1
   12    1   -2    0    0.3704   -0.3025    0.3747   -0.2907    0.0125    1
   13    3    2   -2   -0.2494   -0.2191   -0.2415   -0.2352    0.0180    1
   14    1    3   -3   -0.2378   -0.0081   -0.2334   -0.0072    0.0046    1
   15   -2   -3    0    0.0830    0.0492    0.0894    0.0482    0.0065    1
   16   -3   -2   -2    0.0965    0.1472    0.0758    0.1206    0.0337    0
   17    3   -2    0    0.1340   -0.4279    0.1219   -0.4292    0.0122    1
   18    2    1   -2   -0.3984   -0.3738   -0.4045   -0.3765    0.0066    1
   19    2   -3    0    0.3268   -0.3597    0.3388   -0.3445    0.0194    1

###            No.11                ###
# Bravais type
 Orthorhombic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.6034    1.2149    1.3661   89.5668   87.2517   88.6063      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.6071    1.2109    1.3604   90.0000   90.0000   90.0000      0.0000         0.4463    0.8901
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0222    0.0286    0.0000    0.0000    0.0000      0.0000         0.0094    0.0164
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.3491   -1.5527   -0.4706)
 a2 = (    0.2427   -0.2586    0.7431)
 a3 = (   -0.6777    0.1124    0.2553)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.3475   -1.5406   -0.4682) (    0.0114    0.0034    0.0091)
 a2 = (    0.2337   -0.2781    0.7416) (    0.0071    0.0067    0.0135)
 a3 = (   -0.6878    0.0801    0.2468) (    0.0153    0.0054    0.0050)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -17.5619   70.3824  -96.6469    0.3512    0.3445    0.4467
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0008    0.0023    0.0000      0.0024    0.0023    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.8731         3.0802
# Chi-squares at the beginning and the end of the refinement
    0.2865    0.1049
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1    2   -3   -0.3921   -0.0954   -0.3948   -0.0985    0.0041    1
    2   -1    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0    1   -1   -0.4559    0.1838   -0.4653    0.1876    0.0102    1
    4    1    1    0    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5    1    2   -3   -0.0516    0.0573   -0.0615    0.0665    0.0136    1
    6   -1    1    0   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7    1    0    4    0.1592    0.0574    0.1477    0.0591    0.0117    1
    8    0   -1    4    0.0890   -0.0213    0.0790   -0.0154    0.0116    1
    9    0    1    4    0.7105   -0.0550    0.6879   -0.0069    0.0531    0
   10   -2    1    3    0.2362   -0.6884    0.1845   -0.7818    0.1067    0
   11   -2   -1    2    0.0466   -0.1858    0.0532   -0.1549    0.0315    0
   12   -1    0    4    0.3674   -0.3115    0.3747   -0.2907    0.0220    1
   13   -2    1   -2   -0.2219   -0.2533   -0.2415   -0.2352    0.0267    0
   14   -1    3   -6   -0.2270   -0.0045   -0.2334   -0.0072    0.0069    1
   15    1    0    3    0.0983    0.0502    0.0894    0.0482    0.0091    1
   16    3    2    3    0.0723    0.1349    0.0758    0.1206    0.0147    1
   17   -1    0    1    0.0828   -0.4196    0.1219   -0.4292    0.0402    0
   18   -1    1   -1   -0.4045   -0.3765   -0.4045   -0.3765    0.0000    1
   19   -1    0    3    0.3249   -0.3646    0.3388   -0.3445    0.0245    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1    2   -3   -0.3952   -0.0996   -0.3948   -0.0985    0.0012    1
    2   -1    0    0   -0.0661   -0.2868   -0.0649   -0.2885    0.0020    1
    3    0    1   -1   -0.4673    0.1837   -0.4653    0.1876    0.0044    1
    4    1    1    0    0.0085    0.1521    0.0088    0.1499    0.0022    1
    5    1    2   -3   -0.0595    0.0651   -0.0615    0.0665    0.0025    1
    6   -1    1    0   -0.3649   -0.7884   -0.3626   -0.7930    0.0051    1
    7    1    0    4    0.1442    0.0594    0.1477    0.0591    0.0035    1
    8    0   -1    4    0.0783   -0.0135    0.0790   -0.0154    0.0020    1
    9    0    1    4    0.6857   -0.0093    0.6879   -0.0069    0.0032    1
   10   -2    1    2    0.1072   -0.7142    0.1845   -0.7818    0.1027    0
   11   -2   -1    2    0.0468   -0.1809    0.0532   -0.1549    0.0267    0
   12   -1    0    4    0.3777   -0.2908    0.3747   -0.2907    0.0030    1
   13   -2    1   -2   -0.2228   -0.2523   -0.2415   -0.2352    0.0253    0
   14   -1    3   -6   -0.2346   -0.0079   -0.2334   -0.0072    0.0014    1
   15    1    0    3    0.0866    0.0495    0.0894    0.0482    0.0031    1
   16    2    1    3    0.0847    0.1080    0.0758    0.1206    0.0154    1
   17   -1    0    1    0.0879   -0.4202    0.1219   -0.4292    0.0352    0
   18   -1    1   -1   -0.4071   -0.3762   -0.4045   -0.3765    0.0026    1
   19   -1    0    3    0.3382   -0.3496    0.3388   -0.3445    0.0052    1

###                                ###
### Candidates for   Monoclinic(C) ###
###                                ###

###            No.1                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.9807    1.3608    0.7445   89.2546   91.2971   94.4097      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    2.0100    1.3314    0.7474   90.0000   89.7668   90.0000      0.0000         2.6894    1.7814
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0216    0.0130    0.0000    0.8142    0.0000      0.0000         0.0468    0.0304
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.1065   -0.4739   -0.1436)
 a2 = (    0.1936   -0.2994    0.6451)
 a3 = (   -1.2694    0.1263    0.4221)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.1038   -0.4655   -0.1416) (    0.0045    0.0011    0.0024)
 a2 = (    0.2120   -0.2526    0.6748) (    0.0062    0.0053    0.0109)
 a3 = (   -1.2517    0.1484    0.4489) (    0.0231    0.0127    0.0085)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -17.5812   70.4697  -96.5259    0.2982    0.3420    0.5536
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0003    0.0019    0.0000      0.0022    0.0023    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.7193         9.6514
# Chi-squares at the beginning and the end of the refinement
    0.5609    0.0294
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -6    4   -3   -0.3935   -0.0955   -0.3948   -0.0985    0.0033    1
    2   -2    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0    2   -1   -0.4398    0.1925   -0.4653    0.1876    0.0260    0
    4    3    1    0    0.0091    0.1239    0.0088    0.1499    0.0261    0
    5    5    3   -2   -0.0506    0.0688   -0.0615    0.0665    0.0112    1
    6   -3    1    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    4    0    3    0.1448    0.0519    0.1477    0.0591    0.0078    1
    8    0   -2    4    0.0700   -0.0141    0.0790   -0.0154    0.0091    1
    9    0    2    4    0.6348    0.0127    0.6879   -0.0069    0.0566    0
   10   -5    1    1    0.1895   -0.7660    0.1845   -0.7818    0.0166    1
   11   -5   -1    1    0.0531   -0.1595    0.0532   -0.1549    0.0045    1
   12   -6    0    4    0.3662   -0.2762    0.3747   -0.2907    0.0168    1
   13   -5    1   -1   -0.2420   -0.2357   -0.2415   -0.2352    0.0006    1
   14   -1    1   -1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    2    0    1    0.0696    0.0386    0.0894    0.0482    0.0220    0
   16    5    1    1    0.0621    0.0981    0.0758    0.1206    0.0264    0
   17   -6    0    1    0.0878   -0.4137    0.1219   -0.4292    0.0374    0
   18   -6    2   -1   -0.4070   -0.3755   -0.4045   -0.3765    0.0027    1
   19   -2    0    1    0.3302   -0.3357    0.3388   -0.3445    0.0123    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -6    4   -3   -0.3959   -0.0994   -0.3948   -0.0985    0.0014    1
    2   -2    0    0   -0.0650   -0.2880   -0.0649   -0.2885    0.0005    1
    3    0    2   -1   -0.4669    0.1838   -0.4653    0.1876    0.0041    1
    4    3    1    0    0.0088    0.1529    0.0088    0.1499    0.0029    1
    5    6    4   -3   -0.0594    0.0649   -0.0615    0.0665    0.0027    1
    6   -3    1    0   -0.3641   -0.7931   -0.3626   -0.7930    0.0015    1
    7    6    0    4    0.1454    0.0588    0.1477    0.0591    0.0023    1
    8    0   -2    4    0.0785   -0.0141    0.0790   -0.0154    0.0014    1
    9    0    2    4    0.6857   -0.0114    0.6879   -0.0069    0.0050    1
   10   -5    1    1    0.1826   -0.7793    0.1845   -0.7818    0.0032    1
   11   -5   -1    1    0.0543   -0.1559    0.0532   -0.1549    0.0015    1
   12   -6    0    4    0.3775   -0.2901    0.3747   -0.2907    0.0029    1
   13   -5    1   -1   -0.2427   -0.2336   -0.2415   -0.2352    0.0020    1
   14   -1    1   -1   -0.2344   -0.0078   -0.2334   -0.0072    0.0012    1
   15    2    0    1    0.0878    0.0491    0.0894    0.0482    0.0019    1
   16    5    1    1    0.0773    0.1230    0.0758    0.1206    0.0028    1
   17   -6    0    1    0.0899   -0.4204    0.1219   -0.4292    0.0331    0
   18   -6    2   -1   -0.4084   -0.3779   -0.4045   -0.3765    0.0042    1
   19   -2    0    1    0.3386   -0.3486    0.3388   -0.3445    0.0041    1

###            No.3                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.3540    1.9912    0.7459   92.5882   94.6103   86.8926      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.3321    2.0108    0.7466   90.0000   90.0651   90.0000      0.0000         1.7842    2.6932
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0406    0.0176    0.0000    1.9387    0.0000      0.0000         0.0420    0.0539
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.1718    0.2210   -0.6871)
 a2 = (    0.1220    0.4657    0.1469)
 a3 = (    1.2565   -0.1223   -0.4670)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.2121    0.2530   -0.6742) (    0.0217    0.0044    0.0075)
 a2 = (    0.1043    0.4651    0.1418) (    0.0049    0.0091    0.0041)
 a3 = (    1.2532   -0.1439   -0.4501) (    0.0299    0.0112    0.0141)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -72.3904  109.5736   83.4275    0.3878    1.6103    0.8617
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0003    0.0016    0.0000      0.0033    0.0025    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.5307         9.4182
# Chi-squares at the beginning and the end of the refinement
    5.3917    0.0265
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -4    6    3   -0.3946   -0.1174   -0.3948   -0.0985    0.0188    1
    2    0    2    0   -0.0773   -0.2951   -0.0649   -0.2885    0.0141    1
    3   -2    0    1   -0.5042    0.1778   -0.4653    0.1876    0.0401    0
    4   -1   -3    0    0.0180    0.1501    0.0088    0.1499    0.0092    1
    5   -4   -6    3   -0.0574    0.0623   -0.0615    0.0665    0.0059    1
    6   -1    3    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    0   -6   -4    0.1477    0.0591    0.1477    0.0591    0.0000    1
    8    2    0   -4    0.0893   -0.0155    0.0790   -0.0154    0.0103    1
    9   -2    0   -4    0.6923   -0.0070    0.6879   -0.0069    0.0044    1
   10   -1    5   -1    0.1724   -0.8102    0.1845   -0.7818    0.0308    1
   11    1    5   -1    0.0539   -0.1760    0.0532   -0.1549    0.0211    0
   12    0    6   -4    0.4040   -0.3090    0.3747   -0.2907    0.0345    0
   13   -1    5    1   -0.2403   -0.2340   -0.2415   -0.2352    0.0017    1
   14   -1    1    1   -0.2352   -0.0186   -0.2334   -0.0072    0.0116    1
   15    0   -2   -1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1   -5   -1    0.0812    0.1162    0.0758    0.1206    0.0069    1
   17    0    6   -1    0.0805   -0.4478    0.1219   -0.4292    0.0454    0
   18   -2    6    1   -0.4006   -0.3830   -0.4045   -0.3765    0.0076    1
   19    0    2   -1    0.3607   -0.3754    0.3388   -0.3445    0.0379    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -4    6    3   -0.3940   -0.0996   -0.3948   -0.0985    0.0014    1
    2    0    2    0   -0.0654   -0.2885   -0.0649   -0.2885    0.0005    1
    3   -2    0    1   -0.4658    0.1821   -0.4653    0.1876    0.0056    1
    4   -1   -3    0    0.0089    0.1521    0.0088    0.1499    0.0021    1
    5   -4   -6    3   -0.0587    0.0638   -0.0615    0.0665    0.0039    1
    6   -1    3    0   -0.3655   -0.7929   -0.3626   -0.7930    0.0029    1
    7    0   -6   -4    0.1456    0.0590    0.1477    0.0591    0.0021    1
    8    2    0   -4    0.0797   -0.0143    0.0790   -0.0154    0.0013    1
    9   -2    0   -4    0.6857   -0.0088    0.6879   -0.0069    0.0029    1
   10   -1    5   -1    0.1834   -0.7823    0.1845   -0.7818    0.0012    1
   11    1    5   -1    0.0548   -0.1573    0.0532   -0.1549    0.0029    1
   12    0    6   -4    0.3800   -0.2902    0.3747   -0.2907    0.0053    1
   13   -1    5    1   -0.2420   -0.2330   -0.2415   -0.2352    0.0023    1
   14   -1    1    1   -0.2329   -0.0085   -0.2334   -0.0072    0.0014    1
   15    0   -2   -1    0.0881    0.0492    0.0894    0.0482    0.0017    1
   16   -1   -5   -1    0.0773    0.1225    0.0758    0.1206    0.0024    1
   17    0    6   -1    0.0903   -0.4222    0.1219   -0.4292    0.0323    0
   18   -2    6    1   -0.4077   -0.3769   -0.4045   -0.3765    0.0032    1
   19    0    2   -1    0.3410   -0.3494    0.3388   -0.3445    0.0054    1

###            No.4                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.3182    1.9855    0.7644   90.6110   91.3402   89.7993      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.3334    2.0101    0.7462   90.0000   89.7367   90.0000      0.0000         1.7870    2.6938
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0002    0.0377    0.0167    0.0000    1.5101    0.0000      0.0000         0.0401    0.0483
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.2346   -0.2577    0.6741)
 a2 = (   -0.1109   -0.4701   -0.1430)
 a3 = (    1.2170   -0.1644   -0.4521)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.2088   -0.2523    0.6747) (    0.0172    0.0038    0.0059)
 a2 = (   -0.1049   -0.4653   -0.1415) (    0.0040    0.0086    0.0037)
 a3 = (    1.2541   -0.1461   -0.4495) (    0.0282    0.0098    0.0126)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  107.5435  109.3458   83.2703    0.3177    1.2978    0.6473
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0019    0.0000      0.0028    0.0024    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         3.3738         9.2487
# Chi-squares at the beginning and the end of the refinement
    0.1607    0.0312
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    4   -6    3   -0.3943   -0.0973   -0.3948   -0.0985    0.0014    1
    2    0   -2    0   -0.0680   -0.2882   -0.0649   -0.2885    0.0031    1
    3    2    0    1   -0.4571    0.1843   -0.4653    0.1876    0.0089    1
    4    1    3    0    0.0086    0.1464    0.0088    0.1499    0.0035    1
    5    4    6    3   -0.0552    0.0611   -0.0615    0.0665    0.0083    1
    6    1   -3    0   -0.3792   -0.7704   -0.3626   -0.7930    0.0280    1
    7    0    6   -4    0.1490    0.0582    0.1477    0.0591    0.0016    1
    8   -2    0   -4    0.0822   -0.0181    0.0790   -0.0154    0.0042    1
    9    2    0   -4    0.7169   -0.0231    0.6879   -0.0069    0.0331    0
   10    1   -5   -1    0.1493   -0.7874    0.1845   -0.7818    0.0356    0
   11   -1   -5   -1    0.0521   -0.1609    0.0532   -0.1549    0.0061    1
   12    0   -4   -3    0.3885   -0.2874    0.3747   -0.2907    0.0141    1
   13    1   -5    1   -0.2428   -0.2334   -0.2415   -0.2352    0.0023    1
   14    1   -1    1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    0    2   -1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    1    5   -1    0.0758    0.1206    0.0758    0.1206    0.0000    1
   17    0   -6   -1    0.0784   -0.4244    0.1219   -0.4292    0.0437    0
   18    2   -6    1   -0.4079   -0.3713   -0.4045   -0.3765    0.0062    1
   19    0   -2   -1    0.3323   -0.3688    0.3388   -0.3445    0.0252    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    4   -6    3   -0.3953   -0.0996   -0.3948   -0.0985    0.0012    1
    2    0   -2    0   -0.0659   -0.2875   -0.0649   -0.2885    0.0014    1
    3    2    0    1   -0.4682    0.1838   -0.4653    0.1876    0.0047    1
    4    1    3    0    0.0090    0.1531    0.0088    0.1499    0.0031    1
    5    4    6    3   -0.0597    0.0649   -0.0615    0.0665    0.0025    1
    6    1   -3    0   -0.3645   -0.7928   -0.3626   -0.7930    0.0019    1
    7    0    6   -4    0.1451    0.0589    0.1477    0.0591    0.0026    1
    8   -2    0   -4    0.0787   -0.0140    0.0790   -0.0154    0.0014    1
    9    2    0   -4    0.6835   -0.0100    0.6879   -0.0069    0.0054    1
   10    1   -5   -1    0.1827   -0.7801    0.1845   -0.7818    0.0025    1
   11   -1   -5   -1    0.0538   -0.1564    0.0532   -0.1549    0.0016    1
   12    0   -6   -4    0.3783   -0.2898    0.3747   -0.2907    0.0037    1
   13    1   -5    1   -0.2424   -0.2327   -0.2415   -0.2352    0.0027    1
   14    1   -1    1   -0.2341   -0.0081   -0.2334   -0.0072    0.0012    1
   15    0    2   -1    0.0877    0.0492    0.0894    0.0482    0.0020    1
   16    1    5   -1    0.0774    0.1228    0.0758    0.1206    0.0027    1
   17    0   -6   -1    0.0892   -0.4210    0.1219   -0.4292    0.0336    0
   18    2   -6    1   -0.4080   -0.3772   -0.4045   -0.3765    0.0036    1
   19    0   -2   -1    0.3393   -0.3487    0.3388   -0.3445    0.0043    1

###            No.5                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.3087    2.0343    0.7516   90.3573   91.1584   88.6721      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.3334    2.0101    0.7462   90.0000   89.7367   90.0000      0.0000         1.7870    2.6938
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0002    0.0377    0.0167    0.0000    1.5101    0.0000      0.0000         0.0401    0.0483
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.2284    0.2750   -0.6758)
 a2 = (   -0.1034   -0.4600   -0.1394)
 a3 = (   -1.2461    0.1366    0.4466)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.2088    0.2523   -0.6747) (    0.0172    0.0038    0.0059)
 a2 = (   -0.1049   -0.4653   -0.1415) (    0.0040    0.0086    0.0037)
 a3 = (   -1.2541    0.1461    0.4495) (    0.0282    0.0098    0.0126)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -107.5435   70.6542  -96.7297    0.3177    1.2978    0.6473
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0019    0.0000      0.0028    0.0024    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         5.1362         9.2487
# Chi-squares at the beginning and the end of the refinement
    1.0692    0.0312
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -4   -6   -3   -0.3950   -0.0937   -0.3948   -0.0985    0.0049    1
    2    0   -2    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -2    0   -1   -0.4571    0.1843   -0.4653    0.1876    0.0089    1
    4   -1    3    0    0.0077    0.1552    0.0088    0.1499    0.0054    1
    5   -4    6   -3   -0.0616    0.0652   -0.0615    0.0665    0.0013    1
    6   -1   -3    0   -0.3899   -0.7999   -0.3626   -0.7930    0.0282    1
    7    0    6    4    0.1466    0.0579    0.1477    0.0591    0.0016    1
    8    2    0    4    0.0768   -0.0155    0.0790   -0.0154    0.0022    1
    9   -2    0    4    0.6930    0.0005    0.6879   -0.0069    0.0091    1
   10   -1   -5    1    0.1850   -0.7988    0.1845   -0.7818    0.0170    1
   11    1   -5    1    0.0542   -0.1534    0.0532   -0.1549    0.0018    1
   12    0   -6    4    0.3818   -0.2893    0.3747   -0.2907    0.0072    1
   13   -1   -5   -1   -0.2449   -0.2322   -0.2415   -0.2352    0.0045    1
   14   -1   -1   -1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    0    2    1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1    5    1    0.0786    0.1249    0.0758    0.1206    0.0051    1
   17    0   -6    1    0.0914   -0.4232    0.1219   -0.4292    0.0311    0
   18   -2   -6   -1   -0.4172   -0.3723   -0.4045   -0.3765    0.0134    1
   19    0   -2    1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -4   -6   -3   -0.3953   -0.0996   -0.3948   -0.0985    0.0012    1
    2    0   -2    0   -0.0659   -0.2875   -0.0649   -0.2885    0.0014    1
    3   -2    0   -1   -0.4682    0.1838   -0.4653    0.1876    0.0047    1
    4   -1    3    0    0.0090    0.1531    0.0088    0.1499    0.0031    1
    5   -4    6   -3   -0.0597    0.0649   -0.0615    0.0665    0.0025    1
    6   -1   -3    0   -0.3645   -0.7928   -0.3626   -0.7930    0.0019    1
    7    0    6    4    0.1451    0.0589    0.1477    0.0591    0.0026    1
    8    2    0    4    0.0787   -0.0140    0.0790   -0.0154    0.0014    1
    9   -2    0    4    0.6835   -0.0100    0.6879   -0.0069    0.0054    1
   10   -1   -5    1    0.1827   -0.7801    0.1845   -0.7818    0.0025    1
   11    1   -5    1    0.0538   -0.1564    0.0532   -0.1549    0.0016    1
   12    0   -6    4    0.3783   -0.2898    0.3747   -0.2907    0.0037    1
   13   -1   -5   -1   -0.2424   -0.2327   -0.2415   -0.2352    0.0027    1
   14   -1   -1   -1   -0.2341   -0.0081   -0.2334   -0.0072    0.0012    1
   15    0    2    1    0.0877    0.0492    0.0894    0.0482    0.0020    1
   16   -1    5    1    0.0774    0.1228    0.0758    0.1206    0.0027    1
   17    0   -6    1    0.0892   -0.4210    0.1219   -0.4292    0.0336    0
   18   -2   -6   -1   -0.4080   -0.3772   -0.4045   -0.3765    0.0036    1
   19    0   -2    1    0.3393   -0.3487    0.3388   -0.3445    0.0043    1

###            No.12                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.5734    1.6156    1.0425   94.1560  130.8260   87.6460      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.5855    1.5951    1.0565   90.0000  131.5327   90.0000      0.0000         1.5008    1.5098
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0451    0.0338    0.0280    0.0000    1.8392    0.0000      0.0000         0.0226    0.0378
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.7875    0.0863    0.2793)
 a2 = (   -0.1307   -0.5814   -0.1733)
 a3 = (   -0.5204   -0.2984    1.1193)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.7891    0.0905    0.2811) (    0.0025    0.0062    0.0071)
 a2 = (   -0.1309   -0.5865   -0.1786) (    0.0052    0.0125    0.0051)
 a3 = (   -0.5188   -0.2285    1.1303) (    0.0355    0.0136    0.0192)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  130.4989   26.0228   39.9167    0.8882    0.4572    0.9526
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0001    0.0027    0.0000      0.0031    0.0038    0.0000

# Number of computed bands
            384            376
# Figure of merit at the beginning and the end of the refinement
         2.8590         4.8664
# Chi-squares at the beginning and the end of the refinement
    0.1790    0.0193
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -5   -3    2   -0.3954   -0.0861   -0.3948   -0.0985    0.0125    1
    2    0   -2    0   -0.0638   -0.2837   -0.0649   -0.2885    0.0049    1
    3   -2    0    1   -0.4434    0.1980   -0.4653    0.1876    0.0243    0
    4   -1    3    1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5   -5    3    2   -0.0579    0.0641   -0.0615    0.0665    0.0044    1
    6   -1   -3    1   -0.3927   -0.8098   -0.3626   -0.7930    0.0344    0
    7    6    4    0    0.1674    0.0577    0.1477    0.0591    0.0197    0
    8    6    2   -1    0.0467    0.0036    0.0790   -0.0154    0.0375    0
    9    6    0    2    0.6788    0.0093    0.6879   -0.0069    0.0186    1
   10    1   -5    1    0.1927   -0.7936    0.1845   -0.7818    0.0143    1
   11    3   -5   -1    0.0518   -0.1510    0.0532   -0.1549    0.0041    1
   12    6   -4    0    0.3866   -0.2617    0.3747   -0.2907    0.0314    0
   13   -3   -5    1   -0.2438   -0.2296   -0.2415   -0.2352    0.0061    1
   14   -3   -1    1   -0.2305   -0.0028   -0.2334   -0.0072    0.0052    1
   15    1    1    0    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    1    5    1    0.0769    0.1223    0.0758    0.1206    0.0020    1
   17    1   -3    0    0.0901   -0.4171    0.1219   -0.4292    0.0340    0
   18   -4   -6    2   -0.4209   -0.3704   -0.4045   -0.3765    0.0175    1
   19    1   -1    0    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -5   -3    2   -0.3953   -0.0991   -0.3948   -0.0985    0.0008    1
    2    0   -2    0   -0.0648   -0.2874   -0.0649   -0.2885    0.0010    1
    3   -2    0    1   -0.4667    0.1830   -0.4653    0.1876    0.0048    1
    4   -1    3    1    0.0087    0.1529    0.0088    0.1499    0.0030    1
    5   -5    3    2   -0.0598    0.0660   -0.0615    0.0665    0.0018    1
    6   -1   -3    1   -0.3652   -0.7908   -0.3626   -0.7930    0.0034    1
    7    6    4    0    0.1653    0.0594    0.1477    0.0591    0.0176    1
    8    6    2   -1    0.0440    0.0066    0.0790   -0.0154    0.0414    0
    9    6    0    2    0.6836   -0.0075    0.6879   -0.0069    0.0044    1
   10    1   -5    1    0.1827   -0.7792    0.1845   -0.7818    0.0031    1
   11    3   -5   -1    0.0547   -0.1549    0.0532   -0.1549    0.0015    1
   12    6   -4    0    0.3876   -0.2633    0.3747   -0.2907    0.0303    0
   13   -3   -5    1   -0.2426   -0.2330   -0.2415   -0.2352    0.0025    1
   14   -3   -1    1   -0.2349   -0.0076   -0.2334   -0.0072    0.0016    1
   15    1    1    0    0.0862    0.0492    0.0894    0.0482    0.0034    1
   16    1    5    1    0.0765    0.1225    0.0758    0.1206    0.0020    1
   17    1   -3    0    0.0904   -0.4195    0.1219   -0.4292    0.0329    0
   18   -4   -6    2   -0.4079   -0.3765   -0.4045   -0.3765    0.0034    1
   19    1   -1    0    0.3393   -0.3464    0.3388   -0.3445    0.0020    1

###            No.13                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.5765    1.6194    1.0374   88.6253  130.9365   91.4734      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.5904    1.5942    1.0574   90.0000  131.7550   90.0000      0.0000         1.5041    1.5077
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0356    0.0336    0.0248    0.0000    1.4386    0.0000      0.0000         0.0186    0.0318
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.7842   -0.0924   -0.2856)
 a2 = (   -0.1219   -0.5810   -0.1708)
 a3 = (    0.5064    0.2434   -1.1457)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.7891   -0.0907   -0.2819) (    0.0025    0.0061    0.0071)
 a2 = (   -0.1313   -0.5868   -0.1787) (    0.0048    0.0123    0.0056)
 a3 = (    0.5235    0.2276   -1.1319) (    0.0267    0.0125    0.0184)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -130.4250  153.9365 -140.0323    0.9440    0.4353    0.9819
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0003    0.0031    0.0000      0.0029    0.0035    0.0000

# Number of computed bands
            372            376
# Figure of merit at the beginning and the end of the refinement
         3.2327         4.8250
# Chi-squares at the beginning and the end of the refinement
    0.3874    0.0223
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    5   -3   -2   -0.3969   -0.0963   -0.3948   -0.0985    0.0031    1
    2    0   -2    0   -0.0591   -0.2816   -0.0649   -0.2885    0.0090    1
    3    2    0   -1   -0.4653    0.1876   -0.4653    0.1876    0.0000    1
    4    1    3   -1    0.0071    0.1670    0.0088    0.1499    0.0171    1
    5    5    3   -2   -0.0651    0.0689   -0.0615    0.0665    0.0043    1
    6    1   -3   -1   -0.3689   -0.8066   -0.3626   -0.7930    0.0150    1
    7   -6    4    0    0.1778    0.0606    0.1477    0.0591    0.0301    0
    8   -6    2    1    0.0506    0.0041    0.0790   -0.0154    0.0345    0
    9   -6    0   -2    0.7003   -0.0083    0.6879   -0.0069    0.0124    1
   10   -1   -5   -1    0.1934   -0.7819    0.1845   -0.7818    0.0089    1
   11   -3   -5    1    0.0527   -0.1459    0.0532   -0.1549    0.0090    1
   12   -6   -4    0    0.3877   -0.2646    0.3747   -0.2907    0.0292    0
   13    3   -5   -1   -0.2396   -0.2326   -0.2415   -0.2352    0.0033    1
   14    3   -1   -1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15   -1    1    0    0.0981    0.0529    0.0894    0.0482    0.0099    1
   16   -1    5   -1    0.0847    0.1362    0.0758    0.1206    0.0180    0
   17   -1   -3    0    0.0942   -0.4133    0.1219   -0.4292    0.0319    0
   18    4   -6   -2   -0.4119   -0.3793   -0.4045   -0.3765    0.0080    1
   19   -1   -1    0    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    5   -3   -2   -0.3961   -0.0993   -0.3948   -0.0985    0.0015    1
    2    0   -2    0   -0.0652   -0.2870   -0.0649   -0.2885    0.0015    1
    3    2    0   -1   -0.4685    0.1846   -0.4653    0.1876    0.0044    1
    4    1    3   -1    0.0090    0.1535    0.0088    0.1499    0.0036    1
    5    5    3   -2   -0.0598    0.0664   -0.0615    0.0665    0.0018    1
    6    1   -3   -1   -0.3638   -0.7920   -0.3626   -0.7930    0.0016    1
    7   -6    4    0    0.1659    0.0600    0.1477    0.0591    0.0182    0
    8   -6    2    1    0.0445    0.0071    0.0790   -0.0154    0.0412    0
    9   -6    0   -2    0.6836   -0.0074    0.6879   -0.0069    0.0043    1
   10   -1   -5   -1    0.1832   -0.7789    0.1845   -0.7818    0.0032    1
   11   -3   -5    1    0.0544   -0.1549    0.0532   -0.1549    0.0012    1
   12   -6   -4    0    0.3881   -0.2637    0.3747   -0.2907    0.0302    0
   13    3   -5   -1   -0.2425   -0.2328   -0.2415   -0.2352    0.0027    1
   14    3   -1   -1   -0.2352   -0.0073   -0.2334   -0.0072    0.0018    1
   15   -1    1    0    0.0866    0.0499    0.0894    0.0482    0.0033    1
   16   -1    5   -1    0.0767    0.1231    0.0758    0.1206    0.0027    1
   17   -1   -3    0    0.0900   -0.4196    0.1219   -0.4292    0.0333    0
   18    4   -6   -2   -0.4079   -0.3772   -0.4045   -0.3765    0.0035    1
   19   -1   -1    0    0.3395   -0.3469    0.3388   -0.3445    0.0025    1

###            No.19                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.3878    2.7628    0.5218   90.2803   91.4147   90.2004      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.3915    2.7675    0.5194   90.0000   91.0959   90.0000      0.0000         2.6788    5.3278
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0005    0.0484    0.0109    0.0000    1.1521    0.0000      0.0000         0.0565    0.1129
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.1499   -0.6744   -0.2056)
 a2 = (   -0.1032    0.1207   -0.3252)
 a3 = (    1.7810   -0.2434   -0.6663)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.1496   -0.6729   -0.2038) (    0.0068    0.0018    0.0037)
 a2 = (   -0.1017    0.1210   -0.3249) (    0.0038    0.0026    0.0057)
 a3 = (    1.7957   -0.2411   -0.6519) (    0.0394    0.0340    0.0155)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -162.4967  109.4626   83.4649    0.3276    0.4562    0.6057
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0004   -0.0002    0.0000      0.0023    0.0042    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         3.5489         4.0643
# Chi-squares at the beginning and the end of the refinement
    0.1616    0.1294
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -4    1   -0.3948   -0.0985   -0.3948   -0.0985    0.0000    1
    2   -2    0    0   -0.0646   -0.2905   -0.0649   -0.2885    0.0021    1
    3    0   -6    1   -0.4605    0.1857   -0.4653    0.1876    0.0052    1
    4    1   -1    0    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5    2   -4    1   -0.0536    0.0587   -0.0615    0.0665    0.0111    1
    6   -1   -1    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    4    0   -3    0.1784    0.0591    0.1477    0.0591    0.0307    0
    8   -1    5   -3    0.0902   -0.0317    0.0790   -0.0154    0.0197    0
    9    0   -4   -3    0.6677   -0.0335    0.6879   -0.0069    0.0334    0
   10   -5   -3   -1    0.1735   -0.7823    0.1845   -0.7818    0.0110    1
   11   -5    3   -1    0.0547   -0.1622    0.0532   -0.1549    0.0075    1
   12   -4    0   -3    0.3908   -0.2824    0.3747   -0.2907    0.0181    1
   13   -5   -3    1   -0.2417   -0.2354   -0.2415   -0.2352    0.0002    1
   14   -1   -3    1   -0.2296   -0.0071   -0.2334   -0.0072    0.0037    1
   15    2    0   -1    0.0956    0.0508    0.0894    0.0482    0.0067    1
   16    5   -3   -1    0.0797    0.1252    0.0758    0.1206    0.0060    1
   17   -6    0   -1    0.0873   -0.4250    0.1219   -0.4292    0.0348    0
   18   -6   -6    1   -0.4081   -0.3807   -0.4045   -0.3765    0.0056    1
   19   -2    0   -1    0.3375   -0.3628    0.3388   -0.3445    0.0184    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -4    1   -0.3979   -0.0987   -0.3948   -0.0985    0.0031    1
    2   -2    0    0   -0.0646   -0.2888   -0.0649   -0.2885    0.0004    1
    3    0   -6    1   -0.4647    0.1865   -0.4653    0.1876    0.0013    1
    4    1   -1    0    0.0087    0.1518    0.0088    0.1499    0.0019    1
    5    2   -4    1   -0.0582    0.0627   -0.0615    0.0665    0.0051    1
    6   -1   -1    0   -0.3618   -0.7938   -0.3626   -0.7930    0.0011    1
    7    4    0   -3    0.1715    0.0564    0.1477    0.0591    0.0240    0
    8   -1    5   -3    0.0826   -0.0291    0.0790   -0.0154    0.0141    1
    9    0   -4   -3    0.6517   -0.0315    0.6879   -0.0069    0.0437    0
   10   -5   -3   -1    0.1772   -0.7755    0.1845   -0.7818    0.0097    1
   11   -5    3   -1    0.0532   -0.1573    0.0532   -0.1549    0.0024    1
   12   -4    0   -3    0.3832   -0.2737    0.3747   -0.2907    0.0190    1
   13   -5   -3    1   -0.2434   -0.2356   -0.2415   -0.2352    0.0019    1
   14   -1   -3    1   -0.2343   -0.0073   -0.2334   -0.0072    0.0009    1
   15    2    0   -1    0.0908    0.0479    0.0894    0.0482    0.0014    1
   16    5   -3   -1    0.0788    0.1232    0.0758    0.1206    0.0040    1
   17   -6    0   -1    0.0877   -0.4199    0.1219   -0.4292    0.0354    0
   18   -6   -6    1   -0.4099   -0.3806   -0.4045   -0.3765    0.0068    1
   19   -2    0   -1    0.3329   -0.3536    0.3388   -0.3445    0.0108    1

###            No.21                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.3841    2.7519    0.5263   91.1027   93.0599   91.9749      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.3835    2.7535    0.5250   90.0000   89.8710   90.0000      0.0000         2.6353    5.2448
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0467    0.0101    0.0000    0.8445    0.0000      0.0000         0.0508    0.0995
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.1519   -0.6758   -0.2107)
 a2 = (   -0.1056    0.1126   -0.3293)
 a3 = (    1.7463   -0.2841   -0.7016)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.1481   -0.6764   -0.2074) (    0.0067    0.0017    0.0035)
 a2 = (   -0.1047    0.1227   -0.3254) (    0.0035    0.0026    0.0055)
 a3 = (    1.7826   -0.1881   -0.6443) (    0.0369    0.0198    0.0127)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -162.2391  109.8115   83.8464    0.3093    0.3948    0.5811
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
    0.0011    0.0075    0.0000      0.0022    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.1500         4.0154
# Chi-squares at the beginning and the end of the refinement
    0.8982    0.2640
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -4    1   -0.3948   -0.0985   -0.3948   -0.0985    0.0000    1
    2   -2    0    0   -0.0667   -0.2968   -0.0649   -0.2885    0.0085    1
    3    0   -6    1   -0.4605    0.1857   -0.4653    0.1876    0.0052    1
    4    1   -1    0    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5    3   -5    1   -0.0492    0.0777   -0.0615    0.0665    0.0167    1
    6   -1   -1    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    2    0   -1    0.1075    0.0560    0.1477    0.0591    0.0403    0
    8    2    4   -3    0.0614    0.0005    0.0790   -0.0154    0.0237    0
    9    0   -4   -3    0.7056   -0.0589    0.6879   -0.0069    0.0549    0
   10   -5   -3   -1    0.1597   -0.7927    0.1845   -0.7818    0.0271    1
   11   -5    3   -1    0.0565   -0.1734    0.0532   -0.1549    0.0187    0
   12   -4    0   -3    0.4005   -0.3074    0.3747   -0.2907    0.0307    0
   13   -5   -3    1   -0.2429   -0.2372   -0.2415   -0.2352    0.0024    1
   14   -1   -3    1   -0.2242   -0.0055   -0.2334   -0.0072    0.0093    1
   15    5    1   -3    0.1023    0.0405    0.0894    0.0482    0.0150    1
   16    5   -3   -1    0.0840    0.1317    0.0758    0.1206    0.0138    1
   17   -6    0   -1    0.0841   -0.4369    0.1219   -0.4292    0.0386    0
   18   -6   -6    1   -0.4093   -0.3849   -0.4045   -0.3765    0.0096    1
   19   -5    1   -3    0.3252   -0.3081    0.3388   -0.3445    0.0389    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -4    1   -0.3990   -0.1004   -0.3948   -0.0985    0.0046    1
    2   -2    0    0   -0.0629   -0.2851   -0.0649   -0.2885    0.0039    1
    3    0   -6    1   -0.4719    0.1889   -0.4653    0.1876    0.0067    1
    4    1   -1    0    0.0091    0.1547    0.0088    0.1499    0.0048    1
    5    2   -4    1   -0.0584    0.0710   -0.0615    0.0665    0.0055    1
    6   -1   -1    0   -0.3624   -0.7889   -0.3626   -0.7930    0.0041    1
    7    4    0   -3    0.1655    0.0668    0.1477    0.0591    0.0194    0
    8   -1    5   -3    0.0823   -0.0188    0.0790   -0.0154    0.0047    1
    9    0   -4   -3    0.6572   -0.0022    0.6879   -0.0069    0.0311    0
   10   -5   -3   -1    0.1806   -0.7817    0.1845   -0.7818    0.0039    1
   11   -5    3   -1    0.0563   -0.1526    0.0532   -0.1549    0.0039    1
   12   -4    0   -3    0.3956   -0.2637    0.3747   -0.2907    0.0342    0
   13   -5   -3    1   -0.2411   -0.2337   -0.2415   -0.2352    0.0016    1
   14   -1   -3    1   -0.2384   -0.0053   -0.2334   -0.0072    0.0054    1
   15    2    0   -1    0.0852    0.0546    0.0894    0.0482    0.0077    1
   16    5   -3   -1    0.0745    0.1258    0.0758    0.1206    0.0054    1
   17   -6    0   -1    0.0908   -0.4184    0.1219   -0.4292    0.0328    0
   18   -6   -6    1   -0.4056   -0.3788   -0.4045   -0.3765    0.0026    1
   19   -2    0   -1    0.3446   -0.3485    0.3388   -0.3445    0.0071    1

###            No.23                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.4046    2.7478    0.5188   90.6321   91.8750   91.8325      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.3806    2.7678    0.5234   90.0000   89.8443   90.0000      0.0000         2.6379    5.2884
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0475    0.0103    0.0000    0.9753    0.0000      0.0000         0.0518    0.1100
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.1499   -0.6668   -0.2021)
 a2 = (   -0.1042    0.1111   -0.3308)
 a3 = (    1.7864   -0.2645   -0.6774)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.1510   -0.6773   -0.2075) (    0.0069    0.0018    0.0035)
 a2 = (   -0.1023    0.1221   -0.3243) (    0.0038    0.0026    0.0055)
 a3 = (    1.7897   -0.1975   -0.6392) (    0.0377    0.0256    0.0130)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -162.2965  109.5932   83.5453    0.3121    0.4454    0.6050
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
    0.0003    0.0065    0.0000      0.0023    0.0028    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.9490         3.9667
# Chi-squares at the beginning and the end of the refinement
    0.3988    0.2984
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -4    1   -0.3948   -0.0985   -0.3948   -0.0985    0.0000    1
    2   -2    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0   -6    1   -0.4717    0.1821   -0.4653    0.1876    0.0084    1
    4    1   -1    0    0.0097    0.1648    0.0088    0.1499    0.0149    1
    5    2   -4    1   -0.0590    0.0633   -0.0615    0.0665    0.0042    1
    6   -1   -1    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    4    0   -3    0.1869    0.0588    0.1477    0.0591    0.0392    0
    8   -1    5   -3    0.0902   -0.0317    0.0790   -0.0154    0.0197    0
    9    0   -4   -3    0.6755   -0.0477    0.6879   -0.0069    0.0426    0
   10   -5   -3   -1    0.1735   -0.7823    0.1845   -0.7818    0.0110    1
   11   -5    3   -1    0.0543   -0.1583    0.0532   -0.1549    0.0035    1
   12   -4    0   -3    0.3904   -0.2839    0.3747   -0.2907    0.0171    1
   13   -5   -3    1   -0.2420   -0.2324   -0.2415   -0.2352    0.0029    1
   14   -1   -3    1   -0.2296   -0.0071   -0.2334   -0.0072    0.0037    1
   15    5    1   -3    0.0965    0.0377    0.0894    0.0482    0.0126    1
   16    5   -3   -1    0.0887    0.1358    0.0758    0.1206    0.0199    0
   17   -6    0   -1    0.0883   -0.4247    0.1219   -0.4292    0.0338    0
   18   -6   -6    1   -0.4092   -0.3794   -0.4045   -0.3765    0.0055    1
   19   -2    0   -1    0.3375   -0.3628    0.3388   -0.3445    0.0184    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -4    1   -0.4001   -0.1005   -0.3948   -0.0985    0.0056    1
    2   -2    0    0   -0.0648   -0.2853   -0.0649   -0.2885    0.0031    1
    3    0   -6    1   -0.4724    0.1895   -0.4653    0.1876    0.0073    1
    4    1   -1    0    0.0091    0.1520    0.0088    0.1499    0.0021    1
    5    2   -4    1   -0.0591    0.0703   -0.0615    0.0665    0.0046    1
    6   -1   -1    0   -0.3614   -0.7863   -0.3626   -0.7930    0.0068    1
    7    4    0   -3    0.1621    0.0639    0.1477    0.0591    0.0151    1
    8   -1    5   -3    0.0797   -0.0195    0.0790   -0.0154    0.0042    1
    9    0   -4   -3    0.6481   -0.0071    0.6879   -0.0069    0.0398    0
   10   -5   -3   -1    0.1775   -0.7768    0.1845   -0.7818    0.0086    1
   11   -5    3   -1    0.0545   -0.1532    0.0532   -0.1549    0.0022    1
   12   -4    0   -3    0.3898   -0.2634    0.3747   -0.2907    0.0312    0
   13   -5   -3    1   -0.2426   -0.2339   -0.2415   -0.2352    0.0017    1
   14   -1   -3    1   -0.2398   -0.0056   -0.2334   -0.0072    0.0067    1
   15    2    0   -1    0.0823    0.0519    0.0894    0.0482    0.0080    1
   16    5   -3   -1    0.0731    0.1223    0.0758    0.1206    0.0032    1
   17   -6    0   -1    0.0882   -0.4174    0.1219   -0.4292    0.0357    0
   18   -6   -6    1   -0.4062   -0.3784   -0.4045   -0.3765    0.0025    1
   19   -2    0   -1    0.3396   -0.3475    0.3388   -0.3445    0.0031    1

###            No.25                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.4147    2.7652    0.5123   90.7200   93.0504   88.1101      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.3806    2.7678    0.5234   90.0000   89.8443   90.0000      0.0000         2.6379    5.2884
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0475    0.0103    0.0000    0.9753    0.0000      0.0000         0.0518    0.1100
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.1490    0.6626    0.2008)
 a2 = (   -0.1036    0.1104   -0.3287)
 a3 = (   -1.8138    0.3195    0.6555)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.1510    0.6773    0.2075) (    0.0069    0.0018    0.0035)
 a2 = (   -0.1023    0.1221   -0.3243) (    0.0038    0.0026    0.0055)
 a3 = (   -1.7897    0.1975    0.6392) (    0.0377    0.0256    0.0130)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  162.2965   70.4068  -96.4547    0.3121    0.4454    0.6050
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
    0.0003    0.0065    0.0000      0.0023    0.0028    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.8004         3.9667
# Chi-squares at the beginning and the end of the refinement
    1.9675    0.2984
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -4   -1   -0.4000   -0.0894   -0.3948   -0.0985    0.0106    1
    2    2    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0   -6   -1   -0.4651    0.1875   -0.4653    0.1876    0.0003    1
    4   -1   -1    0    0.0097    0.1648    0.0088    0.1499    0.0149    1
    5   -2   -4   -1   -0.0615    0.0665   -0.0615    0.0665    0.0000    1
    6    1   -1    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7   -4    0    3    0.1786    0.0501    0.1477    0.0591    0.0323    0
    8    1    5    3    0.0791   -0.0296    0.0790   -0.0154    0.0142    1
    9   -1   -5    3    0.6704    0.0338    0.6879   -0.0069    0.0444    0
   10    5   -3    1    0.1748   -0.7612    0.1845   -0.7818    0.0228    1
   11    5    3    1    0.0528   -0.1516    0.0532   -0.1549    0.0034    1
   12    4    0    3    0.3677   -0.2738    0.3747   -0.2907    0.0183    1
   13    5   -3   -1   -0.2499   -0.2319   -0.2415   -0.2352    0.0090    1
   14    1   -3   -1   -0.2337   -0.0012   -0.2334   -0.0072    0.0059    1
   15   -2    0    1    0.0980    0.0467    0.0894    0.0482    0.0087    1
   16   -5   -3    1    0.0890    0.1316    0.0758    0.1206    0.0171    1
   17    6    0    1    0.0887   -0.4141    0.1219   -0.4292    0.0364    0
   18    6   -6   -1   -0.4187   -0.3766   -0.4045   -0.3765    0.0142    1
   19    2    0    1    0.3203   -0.3475    0.3388   -0.3445    0.0188    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -4   -1   -0.4001   -0.1005   -0.3948   -0.0985    0.0056    1
    2    2    0    0   -0.0648   -0.2853   -0.0649   -0.2885    0.0031    1
    3    0   -6   -1   -0.4724    0.1895   -0.4653    0.1876    0.0073    1
    4   -1   -1    0    0.0091    0.1520    0.0088    0.1499    0.0021    1
    5   -2   -4   -1   -0.0591    0.0703   -0.0615    0.0665    0.0046    1
    6    1   -1    0   -0.3614   -0.7863   -0.3626   -0.7930    0.0068    1
    7   -4    0    3    0.1621    0.0639    0.1477    0.0591    0.0151    1
    8    1    5    3    0.0797   -0.0195    0.0790   -0.0154    0.0042    1
    9    0   -4    3    0.6481   -0.0071    0.6879   -0.0069    0.0398    0
   10    5   -3    1    0.1775   -0.7768    0.1845   -0.7818    0.0086    1
   11    5    3    1    0.0545   -0.1532    0.0532   -0.1549    0.0022    1
   12    4    0    3    0.3898   -0.2634    0.3747   -0.2907    0.0312    0
   13    5   -3   -1   -0.2426   -0.2339   -0.2415   -0.2352    0.0017    1
   14    1   -3   -1   -0.2398   -0.0056   -0.2334   -0.0072    0.0067    1
   15   -2    0    1    0.0823    0.0519    0.0894    0.0482    0.0080    1
   16   -5   -3    1    0.0731    0.1223    0.0758    0.1206    0.0032    1
   17    6    0    1    0.0882   -0.4174    0.1219   -0.4292    0.0357    0
   18    6   -6   -1   -0.4062   -0.3784   -0.4045   -0.3765    0.0025    1
   19    2    0    1    0.3396   -0.3475    0.3388   -0.3445    0.0031    1

###            No.27                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.6963    0.9429    1.4806   90.0763  122.3754   90.2435      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.6767    0.9445    1.5028   90.0000  122.8199   90.0000      0.0000         1.1157    0.6285
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0217    0.0171    0.0369    0.0000    1.1493    0.0000      0.0000         0.0187    0.0145
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.2434    0.1519    0.6363)
 a2 = (    0.9957   -0.1139   -0.3469)
 a3 = (    0.1682    0.7482    0.2268)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.2495    0.1610    0.6446) (    0.0035    0.0114    0.0032)
 a2 = (    0.9909   -0.1146   -0.3549) (    0.0188    0.0077    0.0064)
 a3 = (    0.1657    0.7414    0.2232) (    0.0054    0.0133    0.0050)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  110.2591  104.4996  178.6854    0.3303    0.9228    0.4720
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0004    0.0010    0.0000      0.0022    0.0026    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.7424         3.9123
# Chi-squares at the beginning and the end of the refinement
    0.1654    0.0194
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    3    3    2   -0.2816   -0.1119   -0.3948   -0.0985    0.1140    0
    2    0    0    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    4    2   -2   -0.4505    0.1914   -0.4653    0.1876    0.0153    1
    4    2    0   -4    0.0094    0.1353    0.0088    0.1499    0.0146    1
    5    4    2   -6   -0.0464    0.0974   -0.0615    0.0665    0.0344    0
    6    2    0    2   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    0   -4   -3    0.1360    0.0542    0.1477    0.0591    0.0127    1
    8   -2   -4    1    0.0761   -0.0159    0.0790   -0.0154    0.0030    1
    9    2   -4   -1    0.6641   -0.0020    0.6879   -0.0069    0.0244    1
   10    1   -1    2    0.1822   -0.7722    0.1845   -0.7818    0.0099    1
   11   -1   -1    3    0.0531   -0.1595    0.0532   -0.1549    0.0045    1
   12    0   -4    3    0.3709   -0.2880    0.3747   -0.2907    0.0047    1
   13    1    1    2   -0.2420   -0.2357   -0.2415   -0.2352    0.0006    1
   14    1    1    0   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    0   -2   -2    0.0796    0.0434    0.0894    0.0482    0.0110    1
   16    1   -1   -3    0.0693    0.1091    0.0758    0.1206    0.0133    1
   17    0   -2    5    0.1231   -0.4248    0.1219   -0.4292    0.0046    1
   18    4    2    4   -0.4078   -0.3781   -0.4045   -0.3765    0.0036    1
   19    0   -2    2    0.3324   -0.3463    0.3388   -0.3445    0.0067    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    3    3    2   -0.2801   -0.1110   -0.3948   -0.0985    0.1153    0
    2    0    0    1   -0.0645   -0.2857   -0.0649   -0.2885    0.0028    1
    3    4    2   -2   -0.4622    0.1872   -0.4653    0.1876    0.0031    1
    4    2    0   -4    0.0088    0.1504    0.0088    0.1499    0.0004    1
    5    4    4   -3   -0.0910    0.0424   -0.0615    0.0665    0.0381    0
    6    2    0    2   -0.3655   -0.7926   -0.3626   -0.7930    0.0029    1
    7    0   -4   -3    0.1450    0.0586    0.1477    0.0591    0.0028    1
    8   -2   -4    1    0.0786   -0.0151    0.0790   -0.0154    0.0005    1
    9    2   -4   -1    0.6843   -0.0063    0.6879   -0.0069    0.0037    1
   10    1   -1    2    0.1815   -0.7788    0.1845   -0.7818    0.0043    1
   11   -1   -1    3    0.0529   -0.1552    0.0532   -0.1549    0.0004    1
   12    0   -4    3    0.3766   -0.2907    0.3747   -0.2907    0.0019    1
   13    1    1    2   -0.2409   -0.2331   -0.2415   -0.2352    0.0023    1
   14    1    1    0   -0.2336   -0.0077   -0.2334   -0.0072    0.0006    1
   15    0   -2   -2    0.0876    0.0487    0.0894    0.0482    0.0019    1
   16    1   -1   -3    0.0762    0.1216    0.0758    0.1206    0.0011    1
   17    0   -2    5    0.1248   -0.4262    0.1219   -0.4292    0.0042    1
   18    4    2    4   -0.4076   -0.3770   -0.4045   -0.3765    0.0032    1
   19    0   -2    2    0.3371   -0.3490    0.3388   -0.3445    0.0049    1

###            No.28                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.7084    0.9187    1.4783   85.3217  119.8298   96.2076      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.6767    0.9445    1.5028   90.0000  122.8199   90.0000      0.0000         1.1157    0.6285
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0217    0.0171    0.0369    0.0000    1.1493    0.0000      0.0000         0.0187    0.0145
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.1774   -0.1224   -0.6416)
 a2 = (    1.0314   -0.0853   -0.3592)
 a3 = (   -0.1641   -0.7299   -0.2212)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.2495   -0.1610   -0.6446) (    0.0035    0.0114    0.0032)
 a2 = (    0.9909   -0.1146   -0.3549) (    0.0188    0.0077    0.0064)
 a3 = (   -0.1657   -0.7414   -0.2232) (    0.0054    0.0133    0.0050)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -110.2591   75.5004   -1.3146    0.3303    0.9228    0.4720
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0004    0.0010    0.0000      0.0022    0.0026    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.6688         3.9123
# Chi-squares at the beginning and the end of the refinement
   13.9890    0.0194
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -6    4    0   -0.4622   -0.0350   -0.3948   -0.0985    0.0926    0
    2    0    0   -1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -4    2    2   -0.4722    0.2204   -0.4653    0.1876    0.0335    0
    4   -2    0    4    0.0166    0.1470    0.0088    0.1499    0.0083    1
    5   -4    4    3   -0.0878    0.0413   -0.0615    0.0665    0.0364    0
    6   -4    0   -5   -0.2885   -0.7805   -0.3626   -0.7930    0.0751    0
    7    0   -4    3    0.1443    0.0578    0.1477    0.0591    0.0036    1
    8    2   -4   -1    0.0838   -0.0160    0.0790   -0.0154    0.0048    1
    9   -3   -5    1    0.7307   -0.0097    0.6879   -0.0069    0.0428    0
   10   -2   -2   -5    0.1593   -0.7297    0.1845   -0.7818    0.0579    0
   11    1   -1   -3    0.0531   -0.1595    0.0532   -0.1549    0.0045    1
   12    0   -4   -3    0.3893   -0.2712    0.3747   -0.2907    0.0244    0
   13   -1    1   -2   -0.2420   -0.2357   -0.2415   -0.2352    0.0006    1
   14   -1    1    0   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    0   -2    2    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1   -1    3    0.0791    0.1164    0.0758    0.1206    0.0053    1
   17    0   -2   -5    0.1405   -0.4319    0.1219   -0.4292    0.0188    1
   18   -4    2   -4   -0.4212   -0.3978   -0.4045   -0.3765    0.0271    0
   19    0   -2   -2    0.3553   -0.3340    0.3388   -0.3445    0.0196    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3    3   -2   -0.2801   -0.1110   -0.3948   -0.0985    0.1153    0
    2    0    0   -1   -0.0645   -0.2857   -0.0649   -0.2885    0.0028    1
    3   -4    2    2   -0.4622    0.1872   -0.4653    0.1876    0.0031    1
    4   -2    0    4    0.0088    0.1504    0.0088    0.1499    0.0004    1
    5   -4    4    3   -0.0910    0.0424   -0.0615    0.0665    0.0381    0
    6   -2    0   -2   -0.3655   -0.7926   -0.3626   -0.7930    0.0029    1
    7    0   -4    3    0.1450    0.0586    0.1477    0.0591    0.0028    1
    8    2   -4   -1    0.0786   -0.0151    0.0790   -0.0154    0.0005    1
    9   -2   -4    1    0.6843   -0.0063    0.6879   -0.0069    0.0037    1
   10   -1   -1   -2    0.1815   -0.7788    0.1845   -0.7818    0.0043    1
   11    1   -1   -3    0.0529   -0.1552    0.0532   -0.1549    0.0004    1
   12    0   -4   -3    0.3766   -0.2907    0.3747   -0.2907    0.0019    1
   13   -1    1   -2   -0.2409   -0.2331   -0.2415   -0.2352    0.0023    1
   14   -1    1    0   -0.2336   -0.0077   -0.2334   -0.0072    0.0006    1
   15    0   -2    2    0.0876    0.0487    0.0894    0.0482    0.0019    1
   16   -1   -1    3    0.0762    0.1216    0.0758    0.1206    0.0011    1
   17    0   -2   -5    0.1248   -0.4262    0.1219   -0.4292    0.0042    1
   18   -4    2   -4   -0.4076   -0.3770   -0.4045   -0.3765    0.0032    1
   19    0   -2   -2    0.3371   -0.3490    0.3388   -0.3445    0.0049    1

###            No.31                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    2.7894    1.3878    0.5168   89.7147   90.7200   91.1195      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    2.7695    1.3878    0.5204   90.0000   90.8960   90.0000      0.0000         5.3215    2.6666
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0012    0.0279    0.0146    0.0000    1.5243    0.0000      0.0000         0.1478    0.0568
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.0988   -0.1268    0.3206)
 a2 = (   -0.1516   -0.6743   -0.2043)
 a3 = (    1.8215   -0.2124   -0.6182)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.1051   -0.1222    0.3232) (    0.0089    0.0018    0.0032)
 a2 = (   -0.1471   -0.6743   -0.2071) (    0.0064    0.0133    0.0057)
 a3 = (    1.8047   -0.2005   -0.6291) (    0.0515    0.0180    0.0177)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  107.8019  109.9620   83.9504    0.3501    1.3882    0.7371
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
    0.0010    0.0060    0.0000      0.0028    0.0026    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         3.1251         3.7842
# Chi-squares at the beginning and the end of the refinement
    1.0567    0.1194
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    4   -2    1   -0.4008   -0.1000   -0.3948   -0.0985    0.0062    1
    2    0   -2    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    6    0    1   -0.4651    0.1875   -0.4653    0.1876    0.0003    1
    4    1    1    0    0.0095    0.1444    0.0088    0.1499    0.0055    1
    5    4    2    1   -0.0615    0.0665   -0.0615    0.0665    0.0000    1
    6    1   -1    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    0    4   -3    0.1532    0.0520    0.1477    0.0591    0.0090    1
    8   -5   -1   -3    0.0706   -0.0237    0.0790   -0.0154    0.0118    1
    9    4    0   -3    0.6184   -0.0158    0.6879   -0.0069    0.0701    0
   10    3   -5   -1    0.1840   -0.7681    0.1845   -0.7818    0.0138    1
   11   -3   -5   -1    0.0525   -0.1531    0.0532   -0.1549    0.0020    1
   12    0   -4   -3    0.3739   -0.2566    0.3747   -0.2907    0.0342    0
   13    3   -5    1   -0.2455   -0.2372   -0.2415   -0.2352    0.0044    1
   14    3   -1    1   -0.2411   -0.0087   -0.2334   -0.0072    0.0079    1
   15    1    5   -2    0.0824    0.0588    0.0894    0.0482    0.0128    1
   16    3    5   -1    0.0718    0.1114    0.0758    0.1206    0.0101    1
   17    0   -6   -1    0.0887   -0.4141    0.1219   -0.4292    0.0364    0
   18    6   -6    1   -0.4107   -0.3796   -0.4045   -0.3765    0.0069    1
   19    0   -2   -1    0.3288   -0.3380    0.3388   -0.3445    0.0119    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    4   -2    1   -0.3994   -0.0988   -0.3948   -0.0985    0.0046    1
    2    0   -2    0   -0.0629   -0.2871   -0.0649   -0.2885    0.0024    1
    3    6    0    1   -0.4680    0.1858   -0.4653    0.1876    0.0032    1
    4    1    1    0    0.0087    0.1514    0.0088    0.1499    0.0015    1
    5    4    2    1   -0.0601    0.0706   -0.0615    0.0665    0.0043    1
    6    1   -1    0   -0.3619   -0.7885   -0.3626   -0.7930    0.0045    1
    7    0    4   -3    0.1583    0.0610    0.1477    0.0591    0.0107    1
    8   -5   -1   -3    0.0757   -0.0183    0.0790   -0.0154    0.0044    1
    9    4    0   -3    0.6375   -0.0083    0.6879   -0.0069    0.0505    0
   10    3   -5   -1    0.1841   -0.7725    0.1845   -0.7818    0.0093    1
   11   -3   -5   -1    0.0562   -0.1510    0.0532   -0.1549    0.0050    1
   12    0   -4   -3    0.3845   -0.2561    0.3747   -0.2907    0.0360    0
   13    3   -5    1   -0.2442   -0.2348   -0.2415   -0.2352    0.0027    1
   14    3   -1    1   -0.2400   -0.0054   -0.2334   -0.0072    0.0068    1
   15    0    2   -1    0.0798    0.0492    0.0894    0.0482    0.0097    1
   16    3    5   -1    0.0728    0.1201    0.0758    0.1206    0.0031    1
   17    0   -6   -1    0.0924   -0.4148    0.1219   -0.4292    0.0328    0
   18    6   -6    1   -0.4082   -0.3778   -0.4045   -0.3765    0.0039    1
   19    0   -2   -1    0.3376   -0.3392    0.3388   -0.3445    0.0055    1

###            No.32                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.4042    2.7483    0.5186   90.3259   90.3410   88.1438      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.3878    2.7764    0.5191   90.0000   90.8733   90.0000      0.0000         2.6734    5.3484
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0004    0.0488    0.0117    0.0000    1.0785    0.0000      0.0000         0.0604    0.1341
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.1499   -0.6667   -0.2020)
 a2 = (    0.1042   -0.1111    0.3307)
 a3 = (   -1.8059    0.1980    0.6472)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.1508   -0.6737   -0.2067) (    0.0069    0.0018    0.0036)
 a2 = (    0.1014   -0.1219    0.3234) (    0.0043    0.0028    0.0056)
 a3 = (   -1.8101    0.1790    0.6349) (    0.0447    0.0293    0.0136)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -17.7146   70.4898  -96.5274    0.3269    0.5134    0.6229
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
    0.0000    0.0070    0.0000      0.0023    0.0029    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         3.3036         3.7628
# Chi-squares at the beginning and the end of the refinement
    0.4341    0.0844
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    4   -1   -0.3981   -0.1091   -0.3948   -0.0985    0.0111    1
    2   -2    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0    6   -1   -0.4882    0.1736   -0.4653    0.1876    0.0269    0
    4    1    1    0    0.0097    0.1648    0.0088    0.1499    0.0149    1
    5    2    4   -1   -0.0687    0.0706   -0.0615    0.0665    0.0082    1
    6   -1    1    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    4    0    3    0.1684    0.0580    0.1477    0.0591    0.0207    0
    8   -1   -5    3    0.0771   -0.0242    0.0790   -0.0154    0.0090    1
    9    0    4    3    0.6522   -0.0195    0.6879   -0.0069    0.0379    0
   10   -5    3    1    0.1828   -0.7859    0.1845   -0.7818    0.0044    1
   11   -5   -3    1    0.0542   -0.1530    0.0532   -0.1549    0.0022    1
   12   -4    0    3    0.3914   -0.2649    0.3747   -0.2907    0.0308    0
   13   -5    3   -1   -0.2417   -0.2362   -0.2415   -0.2352    0.0010    1
   14   -1    3   -1   -0.2403   -0.0144   -0.2334   -0.0072    0.0100    1
   15    2    0    1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    5    3    1    0.0827    0.1279    0.0758    0.1206    0.0100    1
   17   -6    0    1    0.0914   -0.4232    0.1219   -0.4292    0.0311    0
   18   -6    6   -1   -0.4057   -0.3820   -0.4045   -0.3765    0.0057    1
   19   -2    0    1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    4   -1   -0.3968   -0.1004   -0.3948   -0.0985    0.0027    1
    2   -2    0    0   -0.0654   -0.2852   -0.0649   -0.2885    0.0033    1
    3    0    6   -1   -0.4728    0.1850   -0.4653    0.1876    0.0079    1
    4    1    1    0    0.0091    0.1531    0.0088    0.1499    0.0032    1
    5    2    4   -1   -0.0608    0.0710   -0.0615    0.0665    0.0045    1
    6   -1    1    0   -0.3632   -0.7877   -0.3626   -0.7930    0.0053    1
    7    4    0    3    0.1584    0.0636    0.1477    0.0591    0.0116    1
    8   -1   -5    3    0.0778   -0.0175    0.0790   -0.0154    0.0024    1
    9    0    4    3    0.6365    0.0007    0.6879   -0.0069    0.0520    0
   10   -5    3    1    0.1856   -0.7784    0.1845   -0.7818    0.0036    1
   11   -5   -3    1    0.0553   -0.1522    0.0532   -0.1549    0.0035    1
   12   -4    0    3    0.3907   -0.2546    0.3747   -0.2907    0.0395    0
   13   -5    3   -1   -0.2423   -0.2316   -0.2415   -0.2352    0.0037    1
   14   -1    3   -1   -0.2385   -0.0066   -0.2334   -0.0072    0.0051    1
   15    2    0    1    0.0803    0.0514    0.0894    0.0482    0.0097    1
   16    5    3    1    0.0728    0.1215    0.0758    0.1206    0.0032    1
   17   -6    0    1    0.0911   -0.4177    0.1219   -0.4292    0.0328    0
   18   -6    6   -1   -0.4057   -0.3754   -0.4045   -0.3765    0.0017    1
   19   -2    0    1    0.3434   -0.3405    0.3388   -0.3445    0.0061    1

###            No.33                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.7460    0.6582    1.9445   89.8923  116.4717   91.0538      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.7552    0.6544    1.9361   90.0000  115.9324   90.0000      0.0000         0.9066    0.3380
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0185    0.0110    0.0450    0.0000    1.2423    0.0000      0.0000         0.0157    0.0078
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.2006    0.4386    0.4206)
 a2 = (   -1.4144    0.1895    0.5222)
 a3 = (    0.1602   -0.1946    0.5163)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.1991    0.4330    0.4174) (    0.0034    0.0039    0.0037)
 a2 = (   -1.4304    0.1647    0.5115) (    0.0252    0.0109    0.0090)
 a3 = (    0.1604   -0.2013    0.5134) (    0.0045    0.0140    0.0071)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   63.0657   47.6516   12.3276    0.4274    0.4713    0.5396
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0003    0.0010    0.0000      0.0022    0.0026    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.9686         3.7607
# Chi-squares at the beginning and the end of the refinement
    0.1580    0.0147
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    4   -2    2   -0.3979   -0.0993   -0.3948   -0.0985    0.0033    1
    2    2    0   -1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0   -2    6   -0.4644    0.1895   -0.4653    0.1876    0.0021    1
    4   -2    0    2    0.0096    0.1505    0.0088    0.1499    0.0010    1
    5   -4   -2    6   -0.0559    0.0618   -0.0615    0.0665    0.0074    1
    6    2    0    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7   -6    4    3    0.1521    0.0586    0.1477    0.0591    0.0044    1
    8    0    4   -3    0.0840   -0.0184    0.0790   -0.0154    0.0057    1
    9    0    4    3    0.7019   -0.0236    0.6879   -0.0069    0.0218    1
   10    5    1   -1    0.1730   -0.7798    0.1845   -0.7818    0.0117    1
   11    5    1   -4    0.0531   -0.1595    0.0532   -0.1549    0.0045    1
   12    6    4   -3    0.3766   -0.3033    0.3747   -0.2907    0.0127    1
   13    5   -1   -1   -0.2420   -0.2357   -0.2415   -0.2352    0.0006    1
   14    1   -1    1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15   -4    2    2    0.0928    0.0495    0.0894    0.0482    0.0036    1
   16   -5    1    4    0.0790    0.1237    0.0758    0.1206    0.0045    1
   17    5    1   -3    0.1000   -0.3327    0.1219   -0.4292    0.0989    0
   18    5   -1    0   -0.3876   -0.3213   -0.4045   -0.3765    0.0578    0
   19    4    2   -2    0.3349   -0.3600    0.3388   -0.3445    0.0160    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    4   -2    2   -0.3960   -0.0985   -0.3948   -0.0985    0.0012    1
    2    2    0   -1   -0.0643   -0.2860   -0.0649   -0.2885    0.0026    1
    3    0   -2    6   -0.4636    0.1872   -0.4653    0.1876    0.0018    1
    4   -2    0    2    0.0088    0.1518    0.0088    0.1499    0.0018    1
    5   -4   -2    6   -0.0595    0.0648   -0.0615    0.0665    0.0027    1
    6    2    0    0   -0.3663   -0.7948   -0.3626   -0.7930    0.0042    1
    7   -6    4    3    0.1451    0.0584    0.1477    0.0591    0.0027    1
    8    0    4   -3    0.0780   -0.0150    0.0790   -0.0154    0.0011    1
    9    0    4    3    0.6840   -0.0062    0.6879   -0.0069    0.0040    1
   10    5    1   -1    0.1833   -0.7798    0.1845   -0.7818    0.0024    1
   11    5    1   -4    0.0531   -0.1546    0.0532   -0.1549    0.0004    1
   12    6    4   -3    0.3767   -0.2897    0.3747   -0.2907    0.0023    1
   13    5   -1   -1   -0.2415   -0.2334   -0.2415   -0.2352    0.0019    1
   14    1   -1    1   -0.2343   -0.0078   -0.2334   -0.0072    0.0011    1
   15   -4    2    2    0.0878    0.0486    0.0894    0.0482    0.0017    1
   16   -5    1    4    0.0768    0.1223    0.0758    0.1206    0.0020    1
   17    5    1   -3    0.1023   -0.3278    0.1219   -0.4292    0.1032    0
   18    5   -1    0   -0.3870   -0.3178   -0.4045   -0.3765    0.0612    0
   19    4    2   -2    0.3376   -0.3481    0.3388   -0.3445    0.0038    1

###            No.34                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.5754    1.6123    1.0468   90.8774  131.1524   91.2116      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.5914    1.5901    1.0587   90.0000  131.7126   90.0000      0.0000         1.5032    1.5019
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0196    0.0350    0.0297    0.0000    0.7909    0.0000      0.0000         0.0387    0.0302
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.7862    0.1007    0.2892)
 a2 = (    0.1118    0.5849    0.1754)
 a3 = (   -1.0526    0.4244   -0.5694)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.7886    0.0888    0.2808) (    0.0023    0.0073    0.0073)
 a2 = (    0.1303    0.5883    0.1800) (    0.0049    0.0131    0.0053)
 a3 = (   -1.0549    0.4074   -0.5676) (    0.0295    0.0113    0.0158)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   49.3640  153.9267 -140.1181    0.8563    0.4757    1.0212
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
    0.0001    0.0048    0.0000      0.0029    0.0029    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.5205         3.6728
# Chi-squares at the beginning and the end of the refinement
    0.9047    0.0505
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1    3   -2   -0.4014   -0.1002   -0.3948   -0.0985    0.0068    1
    2    0    2    0   -0.0553   -0.2894   -0.0649   -0.2885    0.0096    1
    3    0    0   -1   -0.4653    0.1876   -0.4653    0.1876    0.0000    1
    4    1   -3   -1    0.0053    0.1597    0.0088    0.1499    0.0104    1
    5   -1   -3   -2   -0.0597    0.0631   -0.0615    0.0665    0.0039    1
    6    1    3   -1   -0.3458   -0.8223   -0.3626   -0.7930    0.0338    1
    7    6   -4    0    0.1798    0.0604    0.1477    0.0591    0.0321    0
    8    5    1    2    0.0736   -0.0241    0.0790   -0.0154    0.0102    1
    9    6    0   -1    0.6274   -0.0308    0.6879   -0.0069    0.0651    0
   10    3    5   -1    0.2055   -0.7710    0.1845   -0.7818    0.0236    1
   11    1    5    1    0.0564   -0.1521    0.0532   -0.1549    0.0043    1
   12    6    4    0    0.3869   -0.2667    0.3747   -0.2907    0.0269    0
   13   -1    5   -1   -0.2412   -0.2413   -0.2415   -0.2352    0.0061    1
   14   -1    1   -1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    1   -1    0    0.0981    0.0529    0.0894    0.0482    0.0099    1
   16    3   -5   -1    0.0818    0.1336    0.0758    0.1206    0.0144    1
   17    1    3    0    0.1008   -0.4150    0.1219   -0.4292    0.0254    0
   18    0    6   -2   -0.4114   -0.3943   -0.4045   -0.3765    0.0192    1
   19    1    1    0    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1    3   -2   -0.3967   -0.0991   -0.3948   -0.0985    0.0020    1
    2    0    2    0   -0.0645   -0.2869   -0.0649   -0.2885    0.0016    1
    3    0    0   -1   -0.4682    0.1856   -0.4653    0.1876    0.0035    1
    4    1   -3   -1    0.0089    0.1522    0.0088    0.1499    0.0023    1
    5   -1   -3   -2   -0.0587    0.0673   -0.0615    0.0665    0.0029    1
    6    1    3   -1   -0.3615   -0.7909   -0.3626   -0.7930    0.0024    1
    7    6   -4    0    0.1640    0.0616    0.1477    0.0591    0.0165    1
    8    5    1    2    0.0691   -0.0168    0.0790   -0.0154    0.0100    1
    9    6    0   -1    0.6119   -0.0161    0.6879   -0.0069    0.0766    0
   10    3    5   -1    0.1840   -0.7768    0.1845   -0.7818    0.0051    1
   11    1    5    1    0.0553   -0.1545    0.0532   -0.1549    0.0022    1
   12    6    4    0    0.3886   -0.2616    0.3747   -0.2907    0.0323    0
   13   -1    5   -1   -0.2426   -0.2330   -0.2415   -0.2352    0.0024    1
   14   -1    1   -1   -0.2359   -0.0063   -0.2334   -0.0072    0.0027    1
   15    1   -1    0    0.0847    0.0508    0.0894    0.0482    0.0054    1
   16    3   -5   -1    0.0750    0.1224    0.0758    0.1206    0.0020    1
   17    1    3    0    0.0909   -0.4186    0.1219   -0.4292    0.0328    0
   18    0    6   -2   -0.4071   -0.3775   -0.4045   -0.3765    0.0028    1
   19    1    1    0    0.3402   -0.3451    0.3388   -0.3445    0.0015    1

###            No.35                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.5419    1.5904    1.0741   86.5351  130.4748   92.6122      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.5914    1.5901    1.0587   90.0000  131.7126   90.0000      0.0000         1.5032    1.5019
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0196    0.0350    0.0297    0.0000    0.7909    0.0000      0.0000         0.0387    0.0302
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.7993   -0.0876   -0.2835)
 a2 = (    0.1327    0.5902    0.1759)
 a3 = (    0.9962   -0.4433    0.5580)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.7886   -0.0888   -0.2808) (    0.0023    0.0073    0.0073)
 a2 = (    0.1303    0.5883    0.1800) (    0.0049    0.0131    0.0053)
 a3 = (    1.0549   -0.4074    0.5676) (    0.0295    0.0113    0.0158)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -49.3640   26.0733   39.8819    0.8563    0.4757    1.0212
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
    0.0001    0.0048    0.0000      0.0029    0.0029    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.4528         3.6728
# Chi-squares at the beginning and the end of the refinement
    1.0204    0.0505
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    1    3    2   -0.4014   -0.1002   -0.3948   -0.0985    0.0068    1
    2    0    2    0   -0.0638   -0.2837   -0.0649   -0.2885    0.0049    1
    3    0    0    1   -0.4675    0.2081   -0.4653    0.1876    0.0206    1
    4   -1   -3    1    0.0138    0.1463    0.0088    0.1499    0.0062    1
    5    1   -3    2   -0.0550    0.0631   -0.0615    0.0665    0.0074    1
    6   -1    3    1   -0.3458   -0.8223   -0.3626   -0.7930    0.0338    1
    7   -6   -4    0    0.1674    0.0577    0.1477    0.0591    0.0197    0
    8   -5    1   -2    0.0736   -0.0241    0.0790   -0.0154    0.0102    1
    9   -4    0    1    0.7673    0.0324    0.6879   -0.0069    0.0886    0
   10   -3    5    1    0.2055   -0.7710    0.1845   -0.7818    0.0236    1
   11   -1    5   -1    0.0511   -0.1571    0.0532   -0.1549    0.0030    1
   12   -6    4    0    0.3866   -0.2617    0.3747   -0.2907    0.0314    0
   13    1    5    1   -0.2384   -0.2346   -0.2415   -0.2352    0.0032    1
   14    1    1    1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15   -1   -1    0    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -3   -5    1    0.0777    0.1177    0.0758    0.1206    0.0034    1
   17   -1    3    0    0.0901   -0.4171    0.1219   -0.4292    0.0340    0
   18    0    6    2   -0.4085   -0.3888   -0.4045   -0.3765    0.0130    1
   19   -1    1    0    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    1    3    2   -0.3967   -0.0991   -0.3948   -0.0985    0.0020    1
    2    0    2    0   -0.0645   -0.2869   -0.0649   -0.2885    0.0016    1
    3    0    0    1   -0.4682    0.1856   -0.4653    0.1876    0.0035    1
    4   -1   -3    1    0.0089    0.1522    0.0088    0.1499    0.0023    1
    5    1   -3    2   -0.0587    0.0673   -0.0615    0.0665    0.0029    1
    6   -1    3    1   -0.3615   -0.7909   -0.3626   -0.7930    0.0024    1
    7   -6   -4    0    0.1640    0.0616    0.1477    0.0591    0.0165    1
    8   -5    1   -2    0.0691   -0.0168    0.0790   -0.0154    0.0100    1
    9   -6    0    1    0.6119   -0.0161    0.6879   -0.0069    0.0766    0
   10   -3    5    1    0.1840   -0.7768    0.1845   -0.7818    0.0051    1
   11   -1    5   -1    0.0553   -0.1545    0.0532   -0.1549    0.0022    1
   12   -6    4    0    0.3886   -0.2616    0.3747   -0.2907    0.0323    0
   13    1    5    1   -0.2426   -0.2330   -0.2415   -0.2352    0.0024    1
   14    1    1    1   -0.2359   -0.0063   -0.2334   -0.0072    0.0027    1
   15   -1   -1    0    0.0847    0.0508    0.0894    0.0482    0.0054    1
   16   -3   -5    1    0.0750    0.1224    0.0758    0.1206    0.0020    1
   17   -1    3    0    0.0909   -0.4186    0.1219   -0.4292    0.0328    0
   18    0    6    2   -0.4071   -0.3775   -0.4045   -0.3765    0.0028    1
   19   -1    1    0    0.3402   -0.3451    0.3388   -0.3445    0.0015    1

###            No.38                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.4027    2.7903    0.5123   91.9804   92.9687   87.8643      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.3880    2.7857    0.5173   90.0000   89.1203   90.0000      0.0000         2.6833    5.3852
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0004    0.0474    0.0104    0.0000    0.9988    0.0000      0.0000         0.0540    0.1157
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.1499    0.6668    0.2079)
 a2 = (   -0.1042    0.1111   -0.3249)
 a3 = (   -1.8251    0.3215    0.6247)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.1519    0.6732    0.2070) (    0.0067    0.0017    0.0035)
 a2 = (   -0.0998    0.1217   -0.3226) (    0.0037    0.0027    0.0054)
 a3 = (   -1.8180    0.1843    0.6316) (    0.0395    0.0263    0.0126)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  162.2754   70.6627  -96.6751    0.3178    0.4504    0.5804
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0001    0.0065    0.0000      0.0023    0.0025    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.4984         3.6380
# Chi-squares at the beginning and the end of the refinement
    3.5357    0.1013
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -4   -1   -0.4087   -0.0913   -0.3948   -0.0985    0.0157    1
    2    2    0    0   -0.0667   -0.2968   -0.0649   -0.2885    0.0085    1
    3    0   -6   -1   -0.4651    0.1875   -0.4653    0.1876    0.0003    1
    4   -1   -1    0    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5   -2   -4   -1   -0.0615    0.0665   -0.0615    0.0665    0.0000    1
    6    1   -1    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7   -5   -1    3    0.1627    0.0659    0.1477    0.0591    0.0165    1
    8    1    5    3    0.0686   -0.0257    0.0790   -0.0154    0.0146    1
    9   -1   -5    3    0.6431    0.0325    0.6879   -0.0069    0.0597    0
   10    5   -3    1    0.1733   -0.7545    0.1845   -0.7818    0.0295    1
   11    5    3    1    0.0537   -0.1542    0.0532   -0.1549    0.0009    1
   12    4    0    3    0.3569   -0.2658    0.3747   -0.2907    0.0306    0
   13    5   -3   -1   -0.2586   -0.2400   -0.2415   -0.2352    0.0177    1
   14    1   -3   -1   -0.2439   -0.0013   -0.2334   -0.0072    0.0121    1
   15   -5   -1    2    0.0873    0.0570    0.0894    0.0482    0.0090    1
   16   -5   -3    1    0.0777    0.1149    0.0758    0.1206    0.0060    1
   17    6    0    1    0.0887   -0.4141    0.1219   -0.4292    0.0364    0
   18    6   -6   -1   -0.4245   -0.3818   -0.4045   -0.3765    0.0207    1
   19    2    0    1    0.3133   -0.3399    0.3388   -0.3445    0.0259    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -4   -1   -0.3972   -0.0998   -0.3948   -0.0985    0.0028    1
    2    2    0    0   -0.0661   -0.2860   -0.0649   -0.2885    0.0028    1
    3    0   -6   -1   -0.4722    0.1852   -0.4653    0.1876    0.0073    1
    4   -1   -1    0    0.0094    0.1514    0.0088    0.1499    0.0016    1
    5   -2   -4   -1   -0.0608    0.0705   -0.0615    0.0665    0.0040    1
    6    1   -1    0   -0.3628   -0.7882   -0.3626   -0.7930    0.0047    1
    7   -4    0    3    0.1564    0.0618    0.1477    0.0591    0.0091    1
    8    1    5    3    0.0764   -0.0177    0.0790   -0.0154    0.0034    1
    9    0   -4    3    0.6299   -0.0017    0.6879   -0.0069    0.0582    0
   10    5   -3    1    0.1864   -0.7761    0.1845   -0.7818    0.0061    1
   11    5    3    1    0.0551   -0.1527    0.0532   -0.1549    0.0030    1
   12    4    0    3    0.3877   -0.2532    0.3747   -0.2907    0.0397    0
   13    5   -3   -1   -0.2435   -0.2317   -0.2415   -0.2352    0.0040    1
   14    1   -3   -1   -0.2388   -0.0065   -0.2334   -0.0072    0.0055    1
   15   -2    0    1    0.0788    0.0498    0.0894    0.0482    0.0108    1
   16   -5   -3    1    0.0723    0.1192    0.0758    0.1206    0.0038    1
   17    6    0    1    0.0909   -0.4175    0.1219   -0.4292    0.0331    0
   18    6   -6   -1   -0.4067   -0.3752   -0.4045   -0.3765    0.0026    1
   19    2    0    1    0.3414   -0.3387    0.3388   -0.3445    0.0063    1

###            No.39                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.8582    1.1907    1.0425   90.6696  119.8694   90.0816      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.9031    1.1859    1.0576   90.0000  123.0838   90.0000      0.0000         1.7994    1.1213
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0511    0.0327    0.0233    0.0000    2.3635    0.0000      0.0000         0.0434    0.0366
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.1307   -0.5814   -0.1733)
 a2 = (   -0.7875    0.0863    0.2793)
 a3 = (   -0.3978   -0.1967   -1.0133)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.1307   -0.5871   -0.1777) (    0.0060    0.0023    0.0053)
 a2 = (   -0.7898    0.0908    0.2810) (    0.0228    0.0101    0.0074)
 a3 = (   -0.3945   -0.2601   -1.0247) (    0.0136    0.0414    0.0203)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -40.3636  154.0608 -139.9462    1.2174    0.5079    1.4936
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0004    0.0018    0.0000      0.0024    0.0054    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.3720         3.5531
# Chi-squares at the beginning and the end of the refinement
    0.4247    0.0148
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1   -3   -2   -0.3954   -0.0861   -0.3948   -0.0985    0.0125    1
    2   -2    0    0   -0.0638   -0.2837   -0.0649   -0.2885    0.0049    1
    3    1   -1   -1   -0.4434    0.1980   -0.4653    0.1876    0.0243    0
    4    4    0   -1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5    5   -3   -2   -0.0579    0.0641   -0.0615    0.0665    0.0044    1
    6   -2    0   -1   -0.3927   -0.8098   -0.3626   -0.7930    0.0344    0
    7    4    6    0    0.1674    0.0577    0.1477    0.0591    0.0197    0
    8   -4    6    2    0.0552   -0.0270    0.0790   -0.0154    0.0266    0
    9    1    5   -1    0.6092   -0.0078    0.6879   -0.0069    0.0787    0
   10   -4    2   -1    0.1927   -0.7936    0.1845   -0.7818    0.0143    1
   11   -6    2    1    0.0518   -0.1510    0.0532   -0.1549    0.0041    1
   12   -4    6    0    0.3866   -0.2617    0.3747   -0.2907    0.0314    0
   13   -4   -2   -1   -0.2438   -0.2296   -0.2415   -0.2352    0.0061    1
   14    0   -2   -1   -0.2305   -0.0028   -0.2334   -0.0072    0.0052    1
   15    1    1    0    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    6    2   -1    0.0769    0.1223    0.0758    0.1206    0.0020    1
   17   -3    1    0    0.0901   -0.4171    0.1219   -0.4292    0.0340    0
   18   -4   -2   -2   -0.4209   -0.3704   -0.4045   -0.3765    0.0175    1
   19   -1    1    0    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1   -3   -2   -0.3957   -0.0985   -0.3948   -0.0985    0.0009    1
    2   -2    0    0   -0.0646   -0.2866   -0.0649   -0.2885    0.0019    1
    3    1   -1   -1   -0.4646    0.1858   -0.4653    0.1876    0.0019    1
    4    4    0   -1    0.0088    0.1516    0.0088    0.1499    0.0017    1
    5    5   -3   -2   -0.0594    0.0651   -0.0615    0.0665    0.0025    1
    6   -2    0   -1   -0.3644   -0.7940   -0.3626   -0.7930    0.0021    1
    7    4    6    0    0.1655    0.0586    0.1477    0.0591    0.0178    1
    8   -4    6    2    0.0563   -0.0251    0.0790   -0.0154    0.0248    0
    9    1    5   -1    0.6100   -0.0193    0.6879   -0.0069    0.0789    0
   10   -4    2   -1    0.1846   -0.7778    0.1845   -0.7818    0.0040    1
   11   -6    2    1    0.0536   -0.1547    0.0532   -0.1549    0.0005    1
   12   -4    6    0    0.3861   -0.2635    0.3747   -0.2907    0.0295    0
   13   -4   -2   -1   -0.2421   -0.2331   -0.2415   -0.2352    0.0022    1
   14    0   -2   -1   -0.2344   -0.0075   -0.2334   -0.0072    0.0011    1
   15    1    1    0    0.0866    0.0487    0.0894    0.0482    0.0029    1
   16    6    2   -1    0.0763    0.1218    0.0758    0.1206    0.0013    1
   17   -3    1    0    0.0898   -0.4184    0.1219   -0.4292    0.0338    0
   18   -4   -2   -2   -0.4084   -0.3773   -0.4045   -0.3765    0.0040    1
   19   -1    1    0    0.3378   -0.3461    0.3388   -0.3445    0.0019    1

###            No.43                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.9088    1.1863    1.0468   90.4856  122.3750   91.7469      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.9004    1.1870    1.0575   90.0000  123.0297   90.0000      0.0000         1.7971    1.1225
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0336    0.0280    0.0188    0.0000    1.5580    0.0000      0.0000         0.0334    0.0289
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.1118    0.5849    0.1754)
 a2 = (   -0.7862    0.1007    0.2892)
 a3 = (    0.3782    0.2613    1.0341)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.1306    0.5876    0.1776) (    0.0056    0.0020    0.0047)
 a2 = (   -0.7891    0.0906    0.2807) (    0.0197    0.0095    0.0063)
 a3 = (    0.3942    0.2593    1.0245) (    0.0118    0.0259    0.0167)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   40.3463   25.9257   40.0886    1.0701    0.4898    1.3244
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0003    0.0019    0.0000      0.0023    0.0048    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.4137         3.5518
# Chi-squares at the beginning and the end of the refinement
    0.9989    0.0129
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    1   -3    2   -0.4014   -0.1002   -0.3948   -0.0985    0.0068    1
    2    2    0    0   -0.0553   -0.2894   -0.0649   -0.2885    0.0096    1
    3   -1   -1    1   -0.4653    0.1876   -0.4653    0.1876    0.0000    1
    4   -4    0    1    0.0053    0.1597    0.0088    0.1499    0.0104    1
    5   -5   -3    2   -0.0597    0.0631   -0.0615    0.0665    0.0039    1
    6    2    0    1   -0.3458   -0.8223   -0.3626   -0.7930    0.0338    1
    7   -4    6    0    0.1798    0.0604    0.1477    0.0591    0.0321    0
    8    4    6   -2    0.0596   -0.0287    0.0790   -0.0154    0.0236    0
    9   -1    5    1    0.6274   -0.0308    0.6879   -0.0069    0.0651    0
   10    4    2    1    0.2055   -0.7710    0.1845   -0.7818    0.0236    1
   11    6    2   -1    0.0564   -0.1521    0.0532   -0.1549    0.0043    1
   12    4    6    0    0.3869   -0.2667    0.3747   -0.2907    0.0269    0
   13    4   -2    1   -0.2412   -0.2413   -0.2415   -0.2352    0.0061    1
   14    0   -2    1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15   -1    1    0    0.0981    0.0529    0.0894    0.0482    0.0099    1
   16   -6    2    1    0.0818    0.1336    0.0758    0.1206    0.0144    1
   17    3    1    0    0.1008   -0.4150    0.1219   -0.4292    0.0254    0
   18    4   -2    2   -0.4114   -0.3943   -0.4045   -0.3765    0.0192    1
   19    1    1    0    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    1   -3    2   -0.3961   -0.0986   -0.3948   -0.0985    0.0013    1
    2    2    0    0   -0.0644   -0.2862   -0.0649   -0.2885    0.0023    1
    3   -1   -1    1   -0.4646    0.1866   -0.4653    0.1876    0.0012    1
    4   -4    0    1    0.0088    0.1514    0.0088    0.1499    0.0015    1
    5   -5   -3    2   -0.0594    0.0654   -0.0615    0.0665    0.0024    1
    6    2    0    1   -0.3639   -0.7938   -0.3626   -0.7930    0.0016    1
    7   -4    6    0    0.1653    0.0588    0.1477    0.0591    0.0176    1
    8    4    6   -2    0.0561   -0.0249    0.0790   -0.0154    0.0248    0
    9   -1    5    1    0.6102   -0.0188    0.6879   -0.0069    0.0787    0
   10    4    2    1    0.1843   -0.7772    0.1845   -0.7818    0.0046    1
   11    6    2   -1    0.0535   -0.1544    0.0532   -0.1549    0.0007    1
   12    4    6    0    0.3859   -0.2635    0.3747   -0.2907    0.0295    0
   13    4   -2    1   -0.2419   -0.2333   -0.2415   -0.2352    0.0020    1
   14    0   -2    1   -0.2348   -0.0074   -0.2334   -0.0072    0.0014    1
   15   -1    1    0    0.0864    0.0487    0.0894    0.0482    0.0031    1
   16   -6    2    1    0.0761    0.1217    0.0758    0.1206    0.0011    1
   17    3    1    0    0.0896   -0.4179    0.1219   -0.4292    0.0342    0
   18    4   -2    2   -0.4082   -0.3776   -0.4045   -0.3765    0.0038    1
   19    1    1    0    0.3374   -0.3460    0.3388   -0.3445    0.0020    1

###            No.56                ###
# Bravais type
   Monoclinic(C)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.9429    1.6963    1.3355   92.2902  110.4165   90.2435      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.9431    1.6776    1.3512   90.0000  110.6773   90.0000      0.0000         0.6980    1.2416
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0056    0.0307    0.0206    0.0000    0.9060    0.0000      0.0000         0.0112    0.0220
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.9116   -0.4880   -0.4603)
 a2 = (    0.1593   -0.2222    0.5229)
 a3 = (   -0.1682   -0.7482   -0.2268)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.9090   -0.4884   -0.4687) (    0.0066    0.0102    0.0062)
 a2 = (    0.1683   -0.2007    0.5355) (    0.0057    0.0046    0.0094)
 a3 = (   -0.1655   -0.7400   -0.2254) (    0.0078    0.0121    0.0055)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -24.7221   98.5349  -32.1559    0.3411    0.3963    0.5733
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0004    0.0018    0.0000      0.0023    0.0024    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.2464         3.0944
# Chi-squares at the beginning and the end of the refinement
    3.1027    0.0383
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    3    3   -5   -0.2816   -0.1119   -0.3948   -0.0985    0.1140    0
    2    0    0   -1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    2    4   -1   -0.4505    0.1914   -0.4653    0.1876    0.0153    1
    4    0    2    3    0.0094    0.1353    0.0088    0.1499    0.0146    1
    5    2    4    3   -0.0464    0.0974   -0.0615    0.0665    0.0344    0
    6    0    2   -3   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7   -4    0    5    0.1360    0.0542    0.1477    0.0591    0.0127    1
    8   -4   -2    2    0.0761   -0.0159    0.0790   -0.0154    0.0030    1
    9   -4    2    2    0.6641   -0.0020    0.6879   -0.0069    0.0244    1
   10   -1    1   -2    0.1822   -0.7722    0.1845   -0.7818    0.0099    1
   11   -1   -1   -2    0.0531   -0.1595    0.0532   -0.1549    0.0045    1
   12   -4    0   -1    0.3709   -0.2880    0.3747   -0.2907    0.0047    1
   13    1    1   -3   -0.2420   -0.2357   -0.2415   -0.2352    0.0006    1
   14    1    1   -1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15   -2    0    3    0.0796    0.0434    0.0894    0.0482    0.0110    1
   16   -1    1    3    0.0693    0.1091    0.0758    0.1206    0.0133    1
   17   -2    0   -4    0.1231   -0.4248    0.1219   -0.4292    0.0046    1
   18    2    4   -6   -0.4641   -0.3511   -0.4045   -0.3765    0.0648    0
   19   -2    0   -1    0.3324   -0.3463    0.3388   -0.3445    0.0067    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    3    3   -5   -0.2818   -0.1113   -0.3948   -0.0985    0.1137    0
    2    0    0   -1   -0.0653   -0.2882   -0.0649   -0.2885    0.0005    1
    3    2    4   -1   -0.4671    0.1845   -0.4653    0.1876    0.0036    1
    4    0    2    3    0.0087    0.1519    0.0088    0.1499    0.0020    1
    5    3    5    3   -0.0586    0.0906   -0.0615    0.0665    0.0243    0
    6    0    2   -3   -0.3642   -0.7922   -0.3626   -0.7930    0.0018    1
    7   -4    0    5    0.1449    0.0587    0.1477    0.0591    0.0028    1
    8   -4   -2    2    0.0784   -0.0142    0.0790   -0.0154    0.0014    1
    9   -4    2    2    0.6866   -0.0118    0.6879   -0.0069    0.0050    1
   10   -1    1   -2    0.1806   -0.7793    0.1845   -0.7818    0.0046    1
   11   -1   -1   -2    0.0540   -0.1565    0.0532   -0.1549    0.0018    1
   12   -4    0   -1    0.3773   -0.2913    0.3747   -0.2907    0.0026    1
   13    1    1   -3   -0.2429   -0.2341   -0.2415   -0.2352    0.0018    1
   14    1    1   -1   -0.2350   -0.0078   -0.2334   -0.0072    0.0018    1
   15   -2    0    3    0.0872    0.0489    0.0894    0.0482    0.0023    1
   16   -1    1    3    0.0767    0.1223    0.0758    0.1206    0.0019    1
   17   -2    0   -4    0.1259   -0.4282    0.1219   -0.4292    0.0041    1
   18    2    4   -6   -0.4639   -0.3521   -0.4045   -0.3765    0.0643    0
   19   -2    0   -1    0.3380   -0.3497    0.3388   -0.3445    0.0053    1

###                                ###
### Candidates for   Monoclinic(P) ###
###                                ###

###            No.1                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.8234    0.9473    1.2847   89.6506   93.7295   90.3007      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.8376    0.9447    1.2640   90.0000   91.0364   90.0000      0.0000         0.6627    0.7474
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0004    0.0170    0.0202    0.0000    1.4505    0.0000      0.0000         0.0106    0.0129
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.3353    0.4829   -1.0656)
 a2 = (   -0.9885    0.1084    0.3542)
 a3 = (    0.1641    0.7298    0.2212)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.3337    0.4186   -1.0673) (    0.0085    0.0238    0.0081)
 a2 = (   -0.9907    0.1146    0.3548) (    0.0187    0.0078    0.0058)
 a3 = (    0.1655    0.7410    0.2228) (    0.0060    0.0117    0.0061)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -69.4480   72.6729  167.0305    0.3567    1.1841    0.4861
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0004    0.0010    0.0000      0.0022    0.0026    0.0000

# Number of computed bands
            400            268
# Figure of merit at the beginning and the end of the refinement
         2.7725        20.0998
# Chi-squares at the beginning and the end of the refinement
    0.4794    0.0193
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -3    3   -0.4006   -0.0872   -0.3948   -0.0985    0.0127    1
    2    0    0    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1   -1    0   -0.4480    0.2001   -0.4653    0.1876    0.0214    1
    4   -1    0   -3    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5   -2   -3   -3   -0.0579    0.0641   -0.0615    0.0665    0.0044    1
    6   -1    0    4   -0.2795   -0.6867   -0.3626   -0.7930    0.1349    0
    7    0    4   -3    0.1466    0.0579    0.1477    0.0591    0.0016    1
    8    1    4    0    0.0783   -0.0167    0.0790   -0.0154    0.0015    1
    9   -1    4    0    0.6859    0.0094    0.6879   -0.0069    0.0164    1
   10   -1    2    5    0.1952   -0.8039    0.1845   -0.7818    0.0245    1
   11    1    2    5    0.0528   -0.1541    0.0532   -0.1549    0.0009    1
   12    0    4    3    0.3818   -0.2893    0.3747   -0.2907    0.0072    1
   13   -1   -2    5   -0.2476   -0.2331   -0.2415   -0.2352    0.0064    1
   14   -1   -2    1   -0.2335   -0.0029   -0.2334   -0.0072    0.0043    1
   15    0    1   -1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1    2   -5    0.0769    0.1223    0.0758    0.1206    0.0020    1
   17    0    2    5    0.1289   -0.4308    0.1219   -0.4292    0.0072    1
   18   -1   -1    3   -0.4266   -0.3755   -0.4045   -0.3765    0.0222    1
   19    0    1    1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -3    3   -0.3957   -0.0986   -0.3948   -0.0985    0.0010    1
    2    0    0    1   -0.0644   -0.2855   -0.0649   -0.2885    0.0031    1
    3   -1   -1    0   -0.4634    0.1873   -0.4653    0.1876    0.0019    1
    4   -1    0   -3    0.0088    0.1514    0.0088    0.1499    0.0014    1
    5   -2   -3   -3   -0.0593    0.0647   -0.0615    0.0665    0.0029    1
    6   -1    0    3   -0.3657   -0.7929   -0.3626   -0.7930    0.0031    1
    7    0    4   -3    0.1451    0.0586    0.1477    0.0591    0.0027    1
    8    1    4    0    0.0781   -0.0151    0.0790   -0.0154    0.0010    1
    9   -1    4    0    0.6845   -0.0065    0.6879   -0.0069    0.0034    1
   10   -1    2    5    0.1815   -0.7789    0.1845   -0.7818    0.0042    1
   11    1    2    5    0.0527   -0.1546    0.0532   -0.1549    0.0005    1
   12    0    4    3    0.3763   -0.2905    0.3747   -0.2907    0.0016    1
   13   -1   -2    5   -0.2411   -0.2331   -0.2415   -0.2352    0.0022    1
   14   -1   -2    1   -0.2342   -0.0078   -0.2334   -0.0072    0.0010    1
   15    0    1   -1    0.0878    0.0488    0.0894    0.0482    0.0018    1
   16   -1    2   -5    0.0766    0.1222    0.0758    0.1206    0.0017    1
   17    0    2    5    0.1247   -0.4258    0.1219   -0.4292    0.0044    1
   18   -1   -1    3   -0.4079   -0.3772   -0.4045   -0.3765    0.0035    1
   19    0    1    1    0.3369   -0.3487    0.3388   -0.3445    0.0047    1

###            No.3                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.8346    0.9410    1.2735   89.6629   90.8404   90.4468      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.8376    0.9447    1.2640   90.0000   88.9636   90.0000      0.0000         0.6627    0.7474
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0004    0.0170    0.0202    0.0000    1.4505    0.0000      0.0000         0.0106    0.0129
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.3363    0.3853   -1.0837)
 a2 = (    0.9952   -0.1091   -0.3567)
 a3 = (   -0.1652   -0.7348   -0.2227)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.3337    0.4186   -1.0673) (    0.0085    0.0238    0.0081)
 a2 = (    0.9907   -0.1146   -0.3548) (    0.0187    0.0078    0.0058)
 a3 = (   -0.1655   -0.7410   -0.2228) (    0.0060    0.0117    0.0061)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -110.5520  107.3271  -12.9695    0.3567    1.1841    0.4861
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0004    0.0010    0.0000      0.0022    0.0026    0.0000

# Number of computed bands
            277            269
# Figure of merit at the beginning and the end of the refinement
         9.6586        20.0624
# Chi-squares at the beginning and the end of the refinement
    0.2887    0.0193
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    3   -3   -0.3969   -0.1057   -0.3948   -0.0985    0.0075    1
    2    0    0   -1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1    1    0   -0.4799    0.1782   -0.4653    0.1876    0.0173    1
    4   -1    0    3    0.0098    0.1599    0.0088    0.1499    0.0100    1
    5   -2    3    3   -0.0649    0.0678   -0.0615    0.0665    0.0036    1
    6   -1    0   -3   -0.3642   -0.7964   -0.3626   -0.7930    0.0038    1
    7    0   -4    3    0.1466    0.0579    0.1477    0.0591    0.0016    1
    8    1   -4    0    0.0767   -0.0146    0.0790   -0.0154    0.0025    1
    9   -1   -4    0    0.6887   -0.0097    0.6879   -0.0069    0.0028    1
   10   -1   -2   -5    0.1856   -0.7861    0.1845   -0.7818    0.0044    1
   11    1   -2   -5    0.0543   -0.1547    0.0532   -0.1549    0.0011    1
   12    0   -4   -3    0.3818   -0.2893    0.3747   -0.2907    0.0072    1
   13   -1    2   -5   -0.2415   -0.2352   -0.2415   -0.2352    0.0000    1
   14   -1    2   -1   -0.2373   -0.0125   -0.2334   -0.0072    0.0067    1
   15    0   -1    1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1   -2    5    0.0811    0.1256    0.0758    0.1206    0.0073    1
   17    0   -2   -5    0.1289   -0.4308    0.1219   -0.4292    0.0072    1
   18   -1    1   -3   -0.4070   -0.3810   -0.4045   -0.3765    0.0051    1
   19    0   -1   -1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    3   -3   -0.3957   -0.0986   -0.3948   -0.0985    0.0010    1
    2    0    0   -1   -0.0644   -0.2855   -0.0649   -0.2885    0.0031    1
    3   -1    1    0   -0.4634    0.1873   -0.4653    0.1876    0.0019    1
    4   -1    0    3    0.0088    0.1514    0.0088    0.1499    0.0014    1
    5   -2    3    3   -0.0593    0.0647   -0.0615    0.0665    0.0029    1
    6   -1    0   -3   -0.3657   -0.7929   -0.3626   -0.7930    0.0031    1
    7    0   -4    3    0.1451    0.0586    0.1477    0.0591    0.0027    1
    8    1   -4    0    0.0781   -0.0151    0.0790   -0.0154    0.0010    1
    9   -1   -4    0    0.6845   -0.0065    0.6879   -0.0069    0.0034    1
   10   -1   -2   -5    0.1815   -0.7789    0.1845   -0.7818    0.0042    1
   11    1   -2   -5    0.0527   -0.1546    0.0532   -0.1549    0.0005    1
   12    0   -4   -3    0.3763   -0.2905    0.3747   -0.2907    0.0016    1
   13   -1    2   -5   -0.2411   -0.2331   -0.2415   -0.2352    0.0022    1
   14   -1    2   -1   -0.2342   -0.0078   -0.2334   -0.0072    0.0010    1
   15    0   -1    1    0.0878    0.0488    0.0894    0.0482    0.0018    1
   16   -1   -2    5    0.0766    0.1222    0.0758    0.1206    0.0017    1
   17    0   -2   -5    0.1247   -0.4258    0.1219   -0.4292    0.0044    1
   18   -1    1   -3   -0.4079   -0.3772   -0.4045   -0.3765    0.0035    1
   19    0   -1   -1    0.3369   -0.3487    0.3388   -0.3445    0.0047    1

###            No.4                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.9499    0.8192    1.2855   88.8576   90.3493   90.9430      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.9425    0.8389    1.2648   90.0000   89.8138   90.0000      0.0000         0.7452    0.6633
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0143    0.0212    0.0000    0.8070    0.0000      0.0000         0.0125    0.0106
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.9859    0.1081    0.3533)
 a2 = (   -0.3615    0.4351   -1.0822)
 a3 = (   -0.1637   -0.7279   -0.2206)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.9924    0.1181    0.3561) (    0.0025    0.0099    0.0060)
 a2 = (   -0.3366    0.4010   -1.0710) (    0.0113    0.0087    0.0172)
 a3 = (   -0.1659   -0.7397   -0.2248) (    0.0069    0.0127    0.0056)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  159.5160  106.4519  -12.8240    0.3483    0.3440    0.5289
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0005    0.0019    0.0000      0.0022    0.0023    0.0000

# Number of computed bands
            265            271
# Figure of merit at the beginning and the end of the refinement
         6.0656        17.4331
# Chi-squares at the beginning and the end of the refinement
    1.0273    0.0346
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3   -2   -3   -0.4009   -0.0951   -0.3948   -0.0985    0.0070    1
    2    0    0   -1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1   -1    0   -0.4653    0.1876   -0.4653    0.1876    0.0000    1
    4    0   -1    3    0.0079    0.1601    0.0088    0.1499    0.0102    1
    5   -3   -2    3   -0.0654    0.0693   -0.0615    0.0665    0.0047    1
    6    0   -1   -3   -0.3928   -0.8059   -0.3626   -0.7930    0.0328    1
    7    4    0    3    0.1466    0.0579    0.1477    0.0591    0.0016    1
    8    4    1    0    0.0739   -0.0149    0.0790   -0.0154    0.0051    1
    9    4   -1    0    0.6966    0.0005    0.6879   -0.0069    0.0115    1
   10    2   -1   -5    0.1858   -0.8024    0.1845   -0.7818    0.0206    1
   11    2    1   -5    0.0532   -0.1507    0.0532   -0.1549    0.0042    1
   12    4    0   -3    0.3818   -0.2893    0.3747   -0.2907    0.0072    1
   13   -2   -1   -5   -0.2470   -0.2343   -0.2415   -0.2352    0.0056    1
   14   -2   -1   -1   -0.2385   -0.0073   -0.2334   -0.0072    0.0052    1
   15    1    0    1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    2   -1    5    0.0801    0.1273    0.0758    0.1206    0.0080    1
   17    2    0   -5    0.1289   -0.4308    0.1219   -0.4292    0.0072    1
   18   -1   -1   -3   -0.4211   -0.3758   -0.4045   -0.3765    0.0166    1
   19    1    0   -1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3   -2   -3   -0.3959   -0.0995   -0.3948   -0.0985    0.0015    1
    2    0    0   -1   -0.0654   -0.2875   -0.0649   -0.2885    0.0011    1
    3   -1   -1    0   -0.4672    0.1841   -0.4653    0.1876    0.0039    1
    4    0   -1    3    0.0088    0.1527    0.0088    0.1499    0.0027    1
    5   -3   -2    3   -0.0595    0.0650   -0.0615    0.0665    0.0025    1
    6    0   -1   -3   -0.3644   -0.7912   -0.3626   -0.7930    0.0026    1
    7    4    0    3    0.1451    0.0588    0.1477    0.0591    0.0026    1
    8    4    1    0    0.0783   -0.0141    0.0790   -0.0154    0.0015    1
    9    4   -1    0    0.6860   -0.0116    0.6879   -0.0069    0.0050    1
   10    2   -1   -5    0.1804   -0.7789    0.1845   -0.7818    0.0050    1
   11    2    1   -5    0.0538   -0.1559    0.0532   -0.1549    0.0012    1
   12    4    0   -3    0.3771   -0.2908    0.3747   -0.2907    0.0024    1
   13   -2   -1   -5   -0.2426   -0.2333   -0.2415   -0.2352    0.0022    1
   14   -2   -1   -1   -0.2347   -0.0078   -0.2334   -0.0072    0.0015    1
   15    1    0    1    0.0875    0.0491    0.0894    0.0482    0.0021    1
   16    2   -1    5    0.0770    0.1228    0.0758    0.1206    0.0025    1
   17    2    0   -5    0.1257   -0.4278    0.1219   -0.4292    0.0040    1
   18   -1   -1   -3   -0.4081   -0.3774   -0.4045   -0.3765    0.0037    1
   19    1    0   -1    0.3379   -0.3493    0.3388   -0.3445    0.0049    1

###            No.5                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.9410    0.8346    1.2735   89.1596   90.3371   90.4468      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.9425    0.8389    1.2648   90.0000   89.8138   90.0000      0.0000         0.7452    0.6633
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0143    0.0212    0.0000    0.8070    0.0000      0.0000         0.0125    0.0106
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.9952   -0.1091   -0.3567)
 a2 = (   -0.3363    0.3853   -1.0837)
 a3 = (    0.1652    0.7348    0.2227)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.9924   -0.1181   -0.3561) (    0.0025    0.0099    0.0060)
 a2 = (   -0.3366    0.4010   -1.0710) (    0.0113    0.0087    0.0172)
 a3 = (    0.1659    0.7397    0.2248) (    0.0069    0.0127    0.0056)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -159.5160   73.5481  167.1760    0.3483    0.3440    0.5289
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0005    0.0019    0.0000      0.0022    0.0023    0.0000

# Number of computed bands
            277            271
# Figure of merit at the beginning and the end of the refinement
         9.6586        17.4331
# Chi-squares at the beginning and the end of the refinement
    0.4145    0.0346
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    3   -2    3   -0.3969   -0.1057   -0.3948   -0.0985    0.0075    1
    2    0    0    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    1   -1    0   -0.4799    0.1782   -0.4653    0.1876    0.0173    1
    4    0   -1   -3    0.0098    0.1599    0.0088    0.1499    0.0100    1
    5    3   -2   -3   -0.0649    0.0678   -0.0615    0.0665    0.0036    1
    6    0   -1    3   -0.3642   -0.7964   -0.3626   -0.7930    0.0038    1
    7   -4    0   -3    0.1466    0.0579    0.1477    0.0591    0.0016    1
    8   -4    1    0    0.0767   -0.0146    0.0790   -0.0154    0.0025    1
    9   -4   -1    0    0.6887   -0.0097    0.6879   -0.0069    0.0028    1
   10   -2   -1    5    0.1856   -0.7861    0.1845   -0.7818    0.0044    1
   11   -2    1    5    0.0543   -0.1547    0.0532   -0.1549    0.0011    1
   12   -4    0    3    0.3818   -0.2893    0.3747   -0.2907    0.0072    1
   13    2   -1    5   -0.2415   -0.2352   -0.2415   -0.2352    0.0000    1
   14    2   -1    1   -0.2373   -0.0125   -0.2334   -0.0072    0.0067    1
   15   -1    0   -1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -2   -1   -5    0.0811    0.1256    0.0758    0.1206    0.0073    1
   17   -2    0    5    0.1289   -0.4308    0.1219   -0.4292    0.0072    1
   18    1   -1    3   -0.4070   -0.3810   -0.4045   -0.3765    0.0051    1
   19   -1    0    1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    3   -2    3   -0.3959   -0.0995   -0.3948   -0.0985    0.0015    1
    2    0    0    1   -0.0654   -0.2875   -0.0649   -0.2885    0.0011    1
    3    1   -1    0   -0.4672    0.1841   -0.4653    0.1876    0.0039    1
    4    0   -1   -3    0.0088    0.1527    0.0088    0.1499    0.0027    1
    5    3   -2   -3   -0.0595    0.0650   -0.0615    0.0665    0.0025    1
    6    0   -1    3   -0.3644   -0.7912   -0.3626   -0.7930    0.0026    1
    7   -4    0   -3    0.1451    0.0588    0.1477    0.0591    0.0026    1
    8   -4    1    0    0.0783   -0.0141    0.0790   -0.0154    0.0015    1
    9   -4   -1    0    0.6860   -0.0116    0.6879   -0.0069    0.0050    1
   10   -2   -1    5    0.1804   -0.7789    0.1845   -0.7818    0.0050    1
   11   -2    1    5    0.0538   -0.1559    0.0532   -0.1549    0.0012    1
   12   -4    0    3    0.3771   -0.2908    0.3747   -0.2907    0.0024    1
   13    2   -1    5   -0.2426   -0.2333   -0.2415   -0.2352    0.0022    1
   14    2   -1    1   -0.2347   -0.0078   -0.2334   -0.0072    0.0015    1
   15   -1    0   -1    0.0875    0.0491    0.0894    0.0482    0.0021    1
   16   -2   -1   -5    0.0770    0.1228    0.0758    0.1206    0.0025    1
   17   -2    0    5    0.1257   -0.4278    0.1219   -0.4292    0.0040    1
   18    1   -1    3   -0.4081   -0.3774   -0.4045   -0.3765    0.0037    1
   19   -1    0    1    0.3379   -0.3493    0.3388   -0.3445    0.0049    1

###            No.7                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.8346    1.2735    0.9410   89.6629   90.4468   90.8404      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.8404    1.2648    0.9408   90.0000   90.3164   90.0000      0.0000         0.8933    1.3444
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0233    0.0210    0.0000    1.5004    0.0000      0.0000         0.0200    0.0234
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.3363   -0.3853    1.0837)
 a2 = (    0.1652    0.7348    0.2227)
 a3 = (   -0.9952    0.1091    0.3567)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.3303   -0.4001    1.0708) (    0.0272    0.0059    0.0094)
 a2 = (    0.1673    0.7394    0.2246) (    0.0060    0.0133    0.0058)
 a3 = (   -0.9944    0.1166    0.3569) (    0.0224    0.0076    0.0099)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   72.4793   70.6845  -96.7913    0.3081    1.2956    0.6297
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0009    0.0019    0.0000      0.0028    0.0024    0.0000

# Number of computed bands
            277            270
# Figure of merit at the beginning and the end of the refinement
         9.6586        16.9858
# Chi-squares at the beginning and the end of the refinement
    0.4088    0.0349
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    3   -3   -0.3969   -0.1057   -0.3948   -0.0985    0.0075    1
    2    0    1    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    1    0   -1   -0.4799    0.1782   -0.4653    0.1876    0.0173    1
    4    1   -3    0    0.0098    0.1599    0.0088    0.1499    0.0100    1
    5    2   -3   -3   -0.0649    0.0678   -0.0615    0.0665    0.0036    1
    6    1    3    0   -0.3642   -0.7964   -0.3626   -0.7930    0.0038    1
    7    0   -3    4    0.1466    0.0579    0.1477    0.0591    0.0016    1
    8   -1    0    4    0.0767   -0.0146    0.0790   -0.0154    0.0025    1
    9    1    0    4    0.6887   -0.0097    0.6879   -0.0069    0.0028    1
   10    1    5    2    0.1856   -0.7861    0.1845   -0.7818    0.0044    1
   11   -1    5    2    0.0543   -0.1547    0.0532   -0.1549    0.0011    1
   12    0    3    4    0.3818   -0.2893    0.3747   -0.2907    0.0072    1
   13    1    5   -2   -0.2415   -0.2352   -0.2415   -0.2352    0.0000    1
   14    1    1   -2   -0.2373   -0.0125   -0.2334   -0.0072    0.0067    1
   15    0   -1    1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    1   -5    2    0.0811    0.1256    0.0758    0.1206    0.0073    1
   17    0    5    2    0.1289   -0.4308    0.1219   -0.4292    0.0072    1
   18    1    3   -1   -0.4070   -0.3810   -0.4045   -0.3765    0.0051    1
   19    0    1    1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    3   -3   -0.3956   -0.0998   -0.3948   -0.0985    0.0014    1
    2    0    1    0   -0.0663   -0.2871   -0.0649   -0.2885    0.0020    1
    3    1    0   -1   -0.4686    0.1844   -0.4653    0.1876    0.0046    1
    4    1   -3    0    0.0090    0.1529    0.0088    0.1499    0.0030    1
    5    2   -3   -3   -0.0597    0.0650   -0.0615    0.0665    0.0024    1
    6    1    3    0   -0.3641   -0.7915   -0.3626   -0.7930    0.0021    1
    7    0   -3    4    0.1450    0.0590    0.1477    0.0591    0.0027    1
    8   -1    0    4    0.0787   -0.0141    0.0790   -0.0154    0.0013    1
    9    1    0    4    0.6838   -0.0106    0.6879   -0.0069    0.0055    1
   10    1    5    2    0.1810   -0.7795    0.1845   -0.7818    0.0042    1
   11   -1    5    2    0.0533   -0.1564    0.0532   -0.1549    0.0015    1
   12    0    3    4    0.3778   -0.2906    0.3747   -0.2907    0.0031    1
   13    1    5   -2   -0.2424   -0.2325   -0.2415   -0.2352    0.0029    1
   14    1    1   -2   -0.2344   -0.0080   -0.2334   -0.0072    0.0014    1
   15    0   -1    1    0.0875    0.0493    0.0894    0.0482    0.0022    1
   16    1   -5    2    0.0771    0.1227    0.0758    0.1206    0.0025    1
   17    0    5    2    0.1253   -0.4285    0.1219   -0.4292    0.0035    1
   18    1    3   -1   -0.4077   -0.3770   -0.4045   -0.3765    0.0033    1
   19    0    1    1    0.3386   -0.3494    0.3388   -0.3445    0.0049    1

###            No.8                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.8234    1.2847    0.9473   89.6506   90.3007   93.7295      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.8404    1.2648    0.9408   90.0000   89.6836   90.0000      0.0000         0.8933    1.3444
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0233    0.0210    0.0000    1.5004    0.0000      0.0000         0.0200    0.0234
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.3353   -0.4829    1.0656)
 a2 = (   -0.1641   -0.7298   -0.2212)
 a3 = (    0.9885   -0.1084   -0.3542)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.3303   -0.4001    1.0708) (    0.0272    0.0059    0.0094)
 a2 = (   -0.1673   -0.7394   -0.2246) (    0.0060    0.0133    0.0058)
 a3 = (    0.9944   -0.1166   -0.3569) (    0.0224    0.0076    0.0099)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  107.5207  109.3155   83.2087    0.3081    1.2956    0.6297
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0009    0.0019    0.0000      0.0028    0.0024    0.0000

# Number of computed bands
            400            271
# Figure of merit at the beginning and the end of the refinement
         2.7725        16.9544
# Chi-squares at the beginning and the end of the refinement
    6.5068    0.0349
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -3    3   -0.4006   -0.0872   -0.3948   -0.0985    0.0127    1
    2    0   -1    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    1    0    1   -0.4480    0.2001   -0.4653    0.1876    0.0214    1
    4    1    3    0    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5    2    3    3   -0.0579    0.0641   -0.0615    0.0665    0.0044    1
    6    1   -4    0   -0.2795   -0.6867   -0.3626   -0.7930    0.1349    0
    7    0    3   -4    0.1466    0.0579    0.1477    0.0591    0.0016    1
    8   -1    0   -4    0.0783   -0.0167    0.0790   -0.0154    0.0015    1
    9    1    0   -4    0.6859    0.0094    0.6879   -0.0069    0.0164    1
   10    1   -5   -2    0.1952   -0.8039    0.1845   -0.7818    0.0245    1
   11   -1   -5   -2    0.0528   -0.1541    0.0532   -0.1549    0.0009    1
   12    0   -3   -4    0.3818   -0.2893    0.3747   -0.2907    0.0072    1
   13    1   -5    2   -0.2476   -0.2331   -0.2415   -0.2352    0.0064    1
   14    1   -1    2   -0.2335   -0.0029   -0.2334   -0.0072    0.0043    1
   15    0    1   -1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    1    5   -2    0.0769    0.1223    0.0758    0.1206    0.0020    1
   17    0   -5   -2    0.1289   -0.4308    0.1219   -0.4292    0.0072    1
   18    1   -3    1   -0.4266   -0.3755   -0.4045   -0.3765    0.0222    1
   19    0   -1   -1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -3    3   -0.3956   -0.0998   -0.3948   -0.0985    0.0014    1
    2    0   -1    0   -0.0663   -0.2871   -0.0649   -0.2885    0.0020    1
    3    1    0    1   -0.4686    0.1844   -0.4653    0.1876    0.0046    1
    4    1    3    0    0.0090    0.1529    0.0088    0.1499    0.0030    1
    5    2    3    3   -0.0597    0.0650   -0.0615    0.0665    0.0024    1
    6    1   -3    0   -0.3641   -0.7915   -0.3626   -0.7930    0.0021    1
    7    0    3   -4    0.1450    0.0590    0.1477    0.0591    0.0027    1
    8   -1    0   -4    0.0787   -0.0141    0.0790   -0.0154    0.0013    1
    9    1    0   -4    0.6838   -0.0106    0.6879   -0.0069    0.0055    1
   10    1   -5   -2    0.1810   -0.7795    0.1845   -0.7818    0.0042    1
   11   -1   -5   -2    0.0533   -0.1564    0.0532   -0.1549    0.0015    1
   12    0   -3   -4    0.3778   -0.2906    0.3747   -0.2907    0.0031    1
   13    1   -5    2   -0.2424   -0.2325   -0.2415   -0.2352    0.0029    1
   14    1   -1    2   -0.2344   -0.0080   -0.2334   -0.0072    0.0014    1
   15    0    1   -1    0.0875    0.0493    0.0894    0.0482    0.0022    1
   16    1    5   -2    0.0771    0.1227    0.0758    0.1206    0.0025    1
   17    0   -5   -2    0.1253   -0.4285    0.1219   -0.4292    0.0035    1
   18    1   -3    1   -0.4077   -0.3770   -0.4045   -0.3765    0.0033    1
   19    0   -1   -1    0.3386   -0.3494    0.3388   -0.3445    0.0049    1

###            No.10                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.4604    0.4679    1.6270   90.3007  115.8641   91.5293      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.5022    0.4717    1.6796   90.0000  122.8253   90.0000      0.0000         0.8944    0.2808
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0195    0.0086    0.0269    0.0000    1.1532    0.0000      0.0000         0.0141    0.0052
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.1601   -0.7123   -0.2159)
 a2 = (   -2.0130    0.1665    0.7011)
 a3 = (   -0.2408   -0.0721   -0.6352)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.1657   -0.7417   -0.2235) (    0.0053    0.0020    0.0044)
 a2 = (   -1.9842    0.2290    0.7112) (    0.0369    0.0159    0.0141)
 a3 = (   -0.2492   -0.1606   -0.6435) (    0.0058    0.0124    0.0094)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -40.0693  154.0030 -139.6859    0.7345    0.3321    0.9136
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0006    0.0008    0.0000      0.0022    0.0026    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.0199         7.6991
# Chi-squares at the beginning and the end of the refinement
    1.1990    0.0449
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1   -2   -5   -0.3623   -0.0497   -0.3948   -0.0985    0.0586    0
    2   -1    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    2   -1   -4   -0.4273    0.2096   -0.4653    0.1876    0.0439    0
    4    2    0   -1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5    4   -1   -3   -0.0584    0.0781   -0.0615    0.0665    0.0120    1
    6   -5    0   -4   -0.3561   -0.7772   -0.3626   -0.7930    0.0171    1
    7    3    2    0    0.1443    0.0578    0.1477    0.0591    0.0036    1
    8   -1    2    2    0.0767   -0.0159    0.0790   -0.0154    0.0024    1
    9    1    2   -2    0.6605    0.0419    0.6879   -0.0069    0.0560    0
   10   -5    1   -2    0.1436   -0.7608    0.1845   -0.7818    0.0460    0
   11   -6    1    2    0.0535   -0.1499    0.0532   -0.1549    0.0051    1
   12   -3    2    0    0.3893   -0.2712    0.3747   -0.2907    0.0244    0
   13   -4   -1   -2   -0.2521   -0.2273   -0.2415   -0.2352    0.0132    1
   14    0   -1   -2   -0.2282    0.0020   -0.2334   -0.0072    0.0106    1
   15    2    1    0    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    6    1   -2    0.0769    0.1223    0.0758    0.1206    0.0020    1
   17   -5    1    0    0.1405   -0.4319    0.1219   -0.4292    0.0188    1
   18   -4   -1   -4   -0.4463   -0.3666   -0.4045   -0.3765    0.0429    0
   19   -2    1    0    0.3553   -0.3340    0.3388   -0.3445    0.0196    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1   -2   -5   -0.3611   -0.0720   -0.3948   -0.0985    0.0429    0
    2   -1    0    0   -0.0647   -0.2862   -0.0649   -0.2885    0.0023    1
    3    2   -1   -4   -0.4600    0.1864   -0.4653    0.1876    0.0054    1
    4    2    0   -1    0.0086    0.1487    0.0088    0.1499    0.0012    1
    5    4   -1   -3   -0.0584    0.0766   -0.0615    0.0665    0.0106    1
    6   -1    0   -1   -0.3653   -0.7924   -0.3626   -0.7930    0.0028    1
    7    3    2    0    0.1450    0.0584    0.1477    0.0591    0.0028    1
    8   -1    2    2    0.0795   -0.0156    0.0790   -0.0154    0.0005    1
    9    1    2   -2    0.6831   -0.0062    0.6879   -0.0069    0.0049    1
   10   -4    1   -2    0.1818   -0.7789    0.1845   -0.7818    0.0040    1
   11   -6    1    2    0.0531   -0.1565    0.0532   -0.1549    0.0015    1
   12   -3    2    0    0.3768   -0.2909    0.3747   -0.2907    0.0021    1
   13   -4   -1   -2   -0.2408   -0.2328   -0.2415   -0.2352    0.0026    1
   14    0   -1   -2   -0.2322   -0.0078   -0.2334   -0.0072    0.0013    1
   15    2    1    0    0.0876    0.0486    0.0894    0.0482    0.0019    1
   16    6    1   -2    0.0757    0.1208    0.0758    0.1206    0.0002    1
   17   -5    1    0    0.1249   -0.4268    0.1219   -0.4292    0.0038    1
   18   -4   -1   -4   -0.4072   -0.3764   -0.4045   -0.3765    0.0028    1
   19   -2    1    0    0.3374   -0.3494    0.3388   -0.3445    0.0051    1

###            No.11                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.5128    0.4623    1.5303   82.3121  109.4595   92.9392      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.5022    0.4717    1.6796   90.0000  122.8253   90.0000      0.0000         0.8944    0.2808
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0195    0.0086    0.0269    0.0000    1.1532    0.0000      0.0000         0.0141    0.0052
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.1926    0.6396    0.2128)
 a2 = (   -2.0234    0.3864    0.7220)
 a3 = (    0.3073   -0.0482    0.6254)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.1657    0.7417    0.2235) (    0.0053    0.0020    0.0044)
 a2 = (   -1.9842    0.2290    0.7112) (    0.0369    0.0159    0.0141)
 a3 = (    0.2492    0.1606    0.6435) (    0.0058    0.0124    0.0094)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   40.0693   25.9970   40.3141    0.7345    0.3321    0.9136
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0006    0.0008    0.0000      0.0022    0.0026    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.2339         7.6991
# Chi-squares at the beginning and the end of the refinement
    5.3834    0.0449
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -1    3   -0.4515   -0.1014   -0.3948   -0.0985    0.0568    0
    2    1    0    0   -0.0919   -0.3051   -0.0649   -0.2885    0.0317    0
    3   -1   -1    4   -0.4419    0.1760   -0.4653    0.1876    0.0262    0
    4   -2    0    1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5   -4   -1    3   -0.0461    0.0655   -0.0615    0.0665    0.0154    1
    6    5    0    3   -0.4304   -0.6972   -0.3626   -0.7930    0.1174    0
    7   -3    2    0    0.1641    0.0407    0.1477    0.0591    0.0247    0
    8    1    2   -2    0.0816   -0.0275    0.0790   -0.0154    0.0124    1
    9   -1    2    2    0.6846   -0.0069    0.6879   -0.0069    0.0033    1
   10    4    1    1    0.2239   -0.6859    0.1845   -0.7818    0.1037    0
   11    6    1   -2    0.0532   -0.1549    0.0532   -0.1549    0.0000    1
   12    3    2    0    0.3747   -0.2907    0.3747   -0.2907    0.0000    1
   13    6   -1    2   -0.2671   -0.2362   -0.2415   -0.2352    0.0256    0
   14    1   -2    4   -0.2315    0.0138   -0.2334   -0.0072    0.0211    0
   15   -2    1    0    0.1082    0.0401    0.0894    0.0482    0.0204    0
   16   -6    1    2    0.0931    0.1288    0.0758    0.1206    0.0191    0
   17    5    1    0    0.1355   -0.4582    0.1219   -0.4292    0.0321    0
   18    6   -1    3   -0.3592   -0.2896   -0.4045   -0.3765    0.0979    0
   19    2    1    0    0.3445   -0.3502    0.3388   -0.3445    0.0081    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    1   -2    5   -0.3611   -0.0720   -0.3948   -0.0985    0.0429    0
    2    1    0    0   -0.0647   -0.2862   -0.0649   -0.2885    0.0023    1
    3   -2   -1    4   -0.4600    0.1864   -0.4653    0.1876    0.0054    1
    4   -2    0    1    0.0086    0.1487    0.0088    0.1499    0.0012    1
    5   -4   -1    3   -0.0584    0.0766   -0.0615    0.0665    0.0106    1
    6    1    0    1   -0.3653   -0.7924   -0.3626   -0.7930    0.0028    1
    7   -3    2    0    0.1450    0.0584    0.1477    0.0591    0.0028    1
    8    1    2   -2    0.0795   -0.0156    0.0790   -0.0154    0.0005    1
    9   -1    2    2    0.6831   -0.0062    0.6879   -0.0069    0.0049    1
   10    4    1    2    0.1818   -0.7789    0.1845   -0.7818    0.0040    1
   11    6    1   -2    0.0531   -0.1565    0.0532   -0.1549    0.0015    1
   12    3    2    0    0.3768   -0.2909    0.3747   -0.2907    0.0021    1
   13    4   -1    2   -0.2408   -0.2328   -0.2415   -0.2352    0.0026    1
   14    0   -1    2   -0.2322   -0.0078   -0.2334   -0.0072    0.0013    1
   15   -2    1    0    0.0876    0.0486    0.0894    0.0482    0.0019    1
   16   -6    1    2    0.0757    0.1208    0.0758    0.1206    0.0002    1
   17    5    1    0    0.1249   -0.4268    0.1219   -0.4292    0.0038    1
   18    4   -1    4   -0.4072   -0.3764   -0.4045   -0.3765    0.0028    1
   19    2    1    0    0.3374   -0.3494    0.3388   -0.3445    0.0051    1

###            No.12                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.1175    0.3978    2.2513   90.3007   91.3642   91.8378      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.1043    0.4128    2.1941   90.0000   89.1266   90.0000      0.0000         0.5033    0.1881
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0009    0.0115    0.0400    0.0000    2.9131    0.0000      0.0000         0.0092    0.0062
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.1884   -0.8379   -0.2539)
 a2 = (   -2.3679    0.1958    0.8247)
 a3 = (   -0.1310    0.1396   -0.4010)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.1886   -0.8482   -0.2553) (    0.0087    0.0029    0.0056)
 a2 = (   -2.2678    0.2600    0.8116) (    0.0649    0.0295    0.0204)
 a3 = (   -0.1278    0.1586   -0.4078) (    0.0065    0.0205    0.0089)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -40.0800  154.0346 -139.6461    0.8843    0.4210    1.2406
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0005    0.0006    0.0000      0.0025    0.0032    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.0828         7.4628
# Chi-squares at the beginning and the end of the refinement
    0.6529    0.0246
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -1   -4   -0.3648   -0.1029   -0.3948   -0.0985    0.0303    0
    2   -1    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0   -1   -6   -0.4528    0.1483   -0.4653    0.1876    0.0412    0
    4    1    0   -1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5    2   -1   -4   -0.0558    0.0539   -0.0615    0.0665    0.0139    1
    6   -1    0   -1   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7    3    2    0    0.1443    0.0578    0.1477    0.0591    0.0036    1
    8    0    2    3    0.0849   -0.0134    0.0790   -0.0154    0.0062    1
    9    0    2   -3    0.6568    0.0041    0.6879   -0.0069    0.0331    0
   10   -5    1   -3    0.2028   -0.7785    0.1845   -0.7818    0.0186    1
   11   -5    1    3    0.0614   -0.1623    0.0532   -0.1549    0.0111    1
   12   -3    2    0    0.3893   -0.2712    0.3747   -0.2907    0.0244    0
   13   -5   -1   -3   -0.2303   -0.2224   -0.2415   -0.2352    0.0171    1
   14   -1   -1   -3   -0.2131   -0.0161   -0.2334   -0.0072    0.0221    0
   15    2    1    0    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    5    1   -3    0.0790    0.1196    0.0758    0.1206    0.0034    1
   17   -5    1    0    0.1405   -0.4319    0.1219   -0.4292    0.0188    1
   18   -5   -1   -5   -0.3654   -0.3038   -0.4045   -0.3765    0.0826    0
   19   -2    1    0    0.3553   -0.3340    0.3388   -0.3445    0.0196    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -1   -4   -0.3964   -0.1000   -0.3948   -0.0985    0.0022    1
    2   -1    0    0   -0.0642   -0.2862   -0.0649   -0.2885    0.0023    1
    3    0   -1   -6   -0.4653    0.1862   -0.4653    0.1876    0.0015    1
    4    1    0   -1    0.0087    0.1515    0.0088    0.1499    0.0016    1
    5    2   -1   -4   -0.0599    0.0647   -0.0615    0.0665    0.0024    1
    6   -1    0   -1   -0.3649   -0.7938   -0.3626   -0.7930    0.0024    1
    7    3    2    0    0.1447    0.0582    0.1477    0.0591    0.0031    1
    8    0    2    3    0.0776   -0.0152    0.0790   -0.0154    0.0014    1
    9    0    2   -3    0.6850   -0.0067    0.6879   -0.0069    0.0029    1
   10   -5    1   -3    0.1820   -0.7794    0.1845   -0.7818    0.0035    1
   11   -5    1    3    0.0529   -0.1549    0.0532   -0.1549    0.0003    1
   12   -3    2    0    0.3766   -0.2905    0.3747   -0.2907    0.0019    1
   13   -5   -1   -3   -0.2412   -0.2342   -0.2415   -0.2352    0.0011    1
   14   -1   -1   -3   -0.2350   -0.0087   -0.2334   -0.0072    0.0023    1
   15    2    1    0    0.0874    0.0483    0.0894    0.0482    0.0020    1
   16    5    1   -3    0.0765    0.1219    0.0758    0.1206    0.0015    1
   17   -5    1    0    0.1252   -0.4264    0.1219   -0.4292    0.0044    1
   18   -5   -1   -5   -0.3863   -0.3189   -0.4045   -0.3765    0.0604    0
   19   -2    1    0    0.3373   -0.3489    0.3388   -0.3445    0.0047    1

###            No.13                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.0920    0.4171    2.1986   89.8550   91.3798   92.6530      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.1047    0.4126    2.1942   90.0000   88.9566   90.0000      0.0000         0.5034    0.1881
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0005    0.0073    0.0361    0.0000    1.4525    0.0000      0.0000         0.0083    0.0034
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.1929    0.8580    0.2600)
 a2 = (   -2.2170    0.3607    0.8459)
 a3 = (    0.1341   -0.1429    0.4106)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.1894    0.8478    0.2552) (    0.0060    0.0023    0.0052)
 a2 = (   -2.2682    0.2625    0.8120) (    0.0414    0.0179    0.0157)
 a3 = (    0.1273   -0.1599    0.4074) (    0.0041    0.0096    0.0071)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   40.0664   25.9642   40.3077    0.7436    0.3321    0.9201
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0005    0.0009    0.0000      0.0022    0.0026    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.5254         7.2869
# Chi-squares at the beginning and the end of the refinement
    0.4002    0.0191
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -1    4   -0.3948   -0.0985   -0.3948   -0.0985    0.0000    1
    2    1    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0   -1    6   -0.4605    0.1857   -0.4653    0.1876    0.0052    1
    4   -1    0    1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5   -2   -1    4   -0.0519    0.0580   -0.0615    0.0665    0.0129    1
    6    1    0    1   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7   -3    2    0    0.1600    0.0591    0.1477    0.0591    0.0123    1
    8    0    2   -3    0.0900   -0.0214    0.0790   -0.0154    0.0125    1
    9    0    2    3    0.7213   -0.0524    0.6879   -0.0069    0.0564    0
   10    5    1    3    0.1549   -0.7689    0.1845   -0.7818    0.0323    0
   11    5    1   -3    0.0530   -0.1627    0.0532   -0.1549    0.0078    1
   12    3    2    0    0.3705   -0.3166    0.3747   -0.2907    0.0262    0
   13    5   -1    3   -0.2408   -0.2352   -0.2415   -0.2352    0.0008    1
   14    1   -1    3   -0.2296   -0.0056   -0.2334   -0.0072    0.0041    1
   15   -2    1    0    0.0985    0.0513    0.0894    0.0482    0.0095    1
   16   -5    1    3    0.0809    0.1268    0.0758    0.1206    0.0080    1
   17    5    1    0    0.1159   -0.4302    0.1219   -0.4292    0.0061    1
   18    5   -1    6   -0.4593   -0.3539   -0.4045   -0.3765    0.0593    0
   19    2    1    0    0.3263   -0.3700    0.3388   -0.3445    0.0284    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -1    4   -0.3962   -0.0985   -0.3948   -0.0985    0.0014    1
    2    1    0    0   -0.0645   -0.2857   -0.0649   -0.2885    0.0028    1
    3    0   -1    6   -0.4636    0.1876   -0.4653    0.1876    0.0017    1
    4   -1    0    1    0.0088    0.1515    0.0088    0.1499    0.0015    1
    5   -2   -1    4   -0.0594    0.0648   -0.0615    0.0665    0.0027    1
    6    1    0    1   -0.3664   -0.7937   -0.3626   -0.7930    0.0039    1
    7   -3    2    0    0.1450    0.0584    0.1477    0.0591    0.0028    1
    8    0    2   -3    0.0779   -0.0151    0.0790   -0.0154    0.0011    1
    9    0    2    3    0.6845   -0.0065    0.6879   -0.0069    0.0034    1
   10    5    1    3    0.1817   -0.7795    0.1845   -0.7818    0.0036    1
   11    5    1   -3    0.0527   -0.1546    0.0532   -0.1549    0.0005    1
   12    3    2    0    0.3764   -0.2905    0.3747   -0.2907    0.0017    1
   13    5   -1    3   -0.2415   -0.2333   -0.2415   -0.2352    0.0020    1
   14    1   -1    3   -0.2345   -0.0078   -0.2334   -0.0072    0.0013    1
   15   -2    1    0    0.0877    0.0487    0.0894    0.0482    0.0018    1
   16   -5    1    3    0.0766    0.1221    0.0758    0.1206    0.0017    1
   17    5    1    0    0.1248   -0.4261    0.1219   -0.4292    0.0043    1
   18    5   -1    5   -0.3869   -0.3177   -0.4045   -0.3765    0.0614    0
   19    2    1    0    0.3370   -0.3488    0.3388   -0.3445    0.0047    1

###            No.14                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.4171    2.1986    1.0920   88.6202   92.6530   90.1450      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.4117    2.1973    1.1053   90.0000   90.2134   90.0000      0.0000         0.3725    1.9880
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0385    0.0191    0.0000    0.8406    0.0000      0.0000         0.0064    0.0327
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    2.2170   -0.3607   -0.8459)
 a2 = (    0.1341   -0.1429    0.4106)
 a3 = (   -0.1929   -0.8580   -0.2600)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    2.2718   -0.2710   -0.8151) (    0.0058    0.0229    0.0137)
 a2 = (    0.1284   -0.1532    0.4089) (    0.0043    0.0034    0.0068)
 a3 = (   -0.1897   -0.8463   -0.2575) (    0.0082    0.0150    0.0066)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -20.4842  106.4589  -12.8434    0.3487    0.3473    0.5363
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0005    0.0018    0.0000      0.0022    0.0023    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.5254         6.9022
# Chi-squares at the beginning and the end of the refinement
    1.4011    0.0352
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    1    4   -2   -0.3948   -0.0985   -0.3948   -0.0985    0.0000    1
    2    0    0   -1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    1    6    0   -0.4605    0.1857   -0.4653    0.1876    0.0052    1
    4    0    1    1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5    1    4    2   -0.0519    0.0580   -0.0615    0.0665    0.0129    1
    6    0    1   -1   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7   -2    0    3    0.1600    0.0591    0.1477    0.0591    0.0123    1
    8   -2   -3    0    0.0900   -0.0214    0.0790   -0.0154    0.0125    1
    9   -2    3    0    0.7213   -0.0524    0.6879   -0.0069    0.0564    0
   10   -1    3   -5    0.1549   -0.7689    0.1845   -0.7818    0.0323    0
   11   -1   -3   -5    0.0530   -0.1627    0.0532   -0.1549    0.0078    1
   12   -2    0   -3    0.3705   -0.3166    0.3747   -0.2907    0.0262    0
   13    1    3   -5   -0.2408   -0.2352   -0.2415   -0.2352    0.0008    1
   14    1    3   -1   -0.2296   -0.0056   -0.2334   -0.0072    0.0041    1
   15   -1    0    2    0.0985    0.0513    0.0894    0.0482    0.0095    1
   16   -1    3    5    0.0809    0.1268    0.0758    0.1206    0.0080    1
   17   -1    0   -5    0.1159   -0.4302    0.1219   -0.4292    0.0061    1
   18    1    6   -5   -0.4593   -0.3539   -0.4045   -0.3765    0.0593    0
   19   -1    0   -2    0.3263   -0.3700    0.3388   -0.3445    0.0284    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    1    4   -2   -0.3965   -0.0994   -0.3948   -0.0985    0.0019    1
    2    0    0   -1   -0.0654   -0.2878   -0.0649   -0.2885    0.0009    1
    3    1    6    0   -0.4675    0.1845   -0.4653    0.1876    0.0038    1
    4    0    1    1    0.0087    0.1527    0.0088    0.1499    0.0028    1
    5    1    4    2   -0.0596    0.0651   -0.0615    0.0665    0.0024    1
    6    0    1   -1   -0.3650   -0.7922   -0.3626   -0.7930    0.0025    1
    7   -2    0    3    0.1451    0.0587    0.1477    0.0591    0.0027    1
    8   -2   -3    0    0.0781   -0.0141    0.0790   -0.0154    0.0015    1
    9   -2    3    0    0.6862   -0.0118    0.6879   -0.0069    0.0051    1
   10   -1    3   -5    0.1808   -0.7795    0.1845   -0.7818    0.0044    1
   11   -1   -3   -5    0.0538   -0.1560    0.0532   -0.1549    0.0012    1
   12   -2    0   -3    0.3771   -0.2909    0.3747   -0.2907    0.0024    1
   13    1    3   -5   -0.2430   -0.2336   -0.2415   -0.2352    0.0022    1
   14    1    3   -1   -0.2351   -0.0077   -0.2334   -0.0072    0.0018    1
   15   -1    0    2    0.0874    0.0490    0.0894    0.0482    0.0022    1
   16   -1    3    5    0.0770    0.1228    0.0758    0.1206    0.0025    1
   17   -1    0   -5    0.1258   -0.4280    0.1219   -0.4292    0.0041    1
   18    1    5   -5   -0.3874   -0.3181   -0.4045   -0.3765    0.0608    0
   19   -1    0   -2    0.3379   -0.3493    0.3388   -0.3445    0.0050    1

###            No.15                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.3978    2.2513    1.1175   91.3642   91.8378   90.3007      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.4117    2.1973    1.1053   90.0000   89.7866   90.0000      0.0000         0.3725    1.9880
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0385    0.0191    0.0000    0.8406    0.0000      0.0000         0.0064    0.0327
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -2.3679    0.1958    0.8247)
 a2 = (   -0.1310    0.1396   -0.4010)
 a3 = (   -0.1884   -0.8379   -0.2539)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -2.2718    0.2710    0.8151) (    0.0058    0.0229    0.0137)
 a2 = (   -0.1284    0.1532   -0.4089) (    0.0043    0.0034    0.0068)
 a3 = (   -0.1897   -0.8463   -0.2575) (    0.0082    0.0150    0.0066)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  159.5158  106.4589  -12.8434    0.3487    0.3473    0.5363
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0005    0.0018    0.0000      0.0022    0.0023    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.0828         6.9022
# Chi-squares at the beginning and the end of the refinement
    1.4780    0.0352
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1   -4   -2   -0.3648   -0.1029   -0.3948   -0.0985    0.0303    0
    2    0    0   -1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1   -6    0   -0.4528    0.1483   -0.4653    0.1876    0.0412    0
    4    0   -1    1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5   -1   -4    2   -0.0558    0.0539   -0.0615    0.0665    0.0139    1
    6    0   -1   -1   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7    2    0    3    0.1443    0.0578    0.1477    0.0591    0.0036    1
    8    2    3    0    0.0849   -0.0134    0.0790   -0.0154    0.0062    1
    9    2   -3    0    0.6568    0.0041    0.6879   -0.0069    0.0331    0
   10    1   -3   -5    0.2028   -0.7785    0.1845   -0.7818    0.0186    1
   11    1    3   -5    0.0614   -0.1623    0.0532   -0.1549    0.0111    1
   12    2    0   -3    0.3893   -0.2712    0.3747   -0.2907    0.0244    0
   13   -1   -3   -5   -0.2303   -0.2224   -0.2415   -0.2352    0.0171    1
   14   -1   -3   -1   -0.2131   -0.0161   -0.2334   -0.0072    0.0221    0
   15    1    0    2    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    1   -3    5    0.0790    0.1196    0.0758    0.1206    0.0034    1
   17    1    0   -5    0.1405   -0.4319    0.1219   -0.4292    0.0188    1
   18   -1   -5   -5   -0.3654   -0.3038   -0.4045   -0.3765    0.0826    0
   19    1    0   -2    0.3553   -0.3340    0.3388   -0.3445    0.0196    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1   -4   -2   -0.3965   -0.0994   -0.3948   -0.0985    0.0019    1
    2    0    0   -1   -0.0654   -0.2878   -0.0649   -0.2885    0.0009    1
    3   -1   -6    0   -0.4675    0.1845   -0.4653    0.1876    0.0038    1
    4    0   -1    1    0.0087    0.1527    0.0088    0.1499    0.0028    1
    5   -1   -4    2   -0.0596    0.0651   -0.0615    0.0665    0.0024    1
    6    0   -1   -1   -0.3650   -0.7922   -0.3626   -0.7930    0.0025    1
    7    2    0    3    0.1451    0.0587    0.1477    0.0591    0.0027    1
    8    2    3    0    0.0781   -0.0141    0.0790   -0.0154    0.0015    1
    9    2   -3    0    0.6862   -0.0118    0.6879   -0.0069    0.0051    1
   10    1   -3   -5    0.1808   -0.7795    0.1845   -0.7818    0.0044    1
   11    1    3   -5    0.0538   -0.1560    0.0532   -0.1549    0.0012    1
   12    2    0   -3    0.3771   -0.2909    0.3747   -0.2907    0.0024    1
   13   -1   -3   -5   -0.2430   -0.2336   -0.2415   -0.2352    0.0022    1
   14   -1   -3   -1   -0.2351   -0.0077   -0.2334   -0.0072    0.0018    1
   15    1    0    2    0.0874    0.0490    0.0894    0.0482    0.0022    1
   16    1   -3    5    0.0770    0.1228    0.0758    0.1206    0.0025    1
   17    1    0   -5    0.1258   -0.4280    0.1219   -0.4292    0.0041    1
   18   -1   -5   -5   -0.3874   -0.3181   -0.4045   -0.3765    0.0608    0
   19    1    0   -2    0.3379   -0.3493    0.3388   -0.3445    0.0050    1

###            No.16                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.0433    0.6007    1.6043   86.7796   92.6336   94.4531      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.0563    0.5950    1.5914   90.0000   88.9181   90.0000      0.0000         0.6637    0.3739
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0005    0.0115    0.0274    0.0000    1.4874    0.0000      0.0000         0.0114    0.0068
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.2145    0.2759   -0.8965)
 a2 = (    1.5689   -0.1527   -0.5574)
 a3 = (   -0.1524   -0.5815   -0.1705)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.2646    0.3329   -0.8461) (    0.0069    0.0197    0.0067)
 a2 = (    1.5729   -0.1818   -0.5634) (    0.0316    0.0129    0.0104)
 a3 = (   -0.1315   -0.5885   -0.1771) (    0.0049    0.0100    0.0051)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -110.5659  107.3849  -12.9909    0.3623    1.2295    0.5284
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0004    0.0010    0.0000      0.0022    0.0026    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.1335         6.8611
# Chi-squares at the beginning and the end of the refinement
   12.3647    0.0194
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3    2   -4   -0.4787   -0.1300   -0.3948   -0.0985    0.0896    0
    2    0    0   -1   -0.0719   -0.2744   -0.0649   -0.2885    0.0157    1
    3   -4    2    1   -0.4720    0.2445   -0.4653    0.1876    0.0572    0
    4   -1    0    3    0.0226    0.1878    0.0088    0.1499    0.0403    0
    5   -3    2    6   -0.0534    0.0862   -0.0615    0.0665    0.0212    0
    6   -1    0   -3   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    0   -2    3    0.1446    0.0579    0.1477    0.0591    0.0033    1
    8    1   -2    0    0.0632   -0.0110    0.0790   -0.0154    0.0164    1
    9   -1   -2    0    0.6879   -0.0069    0.6879   -0.0069    0.0000    1
   10   -1   -1   -5    0.1687   -0.7925    0.1845   -0.7818    0.0191    1
   11    1   -1   -5    0.0431   -0.1408    0.0532   -0.1549    0.0174    1
   12    0   -2   -3    0.3828   -0.2928    0.3747   -0.2907    0.0084    1
   13   -1    1   -5   -0.2403   -0.2340   -0.2415   -0.2352    0.0017    1
   14   -3    3   -2   -0.2401    0.0052   -0.2334   -0.0072    0.0141    1
   15    0   -1    2    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1   -1    5    0.0931    0.1333    0.0758    0.1206    0.0215    0
   17    0   -1   -5    0.1136   -0.4308    0.1219   -0.4292    0.0084    1
   18   -2    1   -6   -0.4052   -0.3874   -0.4045   -0.3765    0.0110    1
   19    0   -1   -2    0.3412   -0.3551    0.3388   -0.3445    0.0109    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3    2   -4   -0.4528   -0.0995   -0.3948   -0.0985    0.0580    0
    2    0    0   -1   -0.0645   -0.2857   -0.0649   -0.2885    0.0028    1
    3   -2    1    0   -0.4622    0.1872   -0.4653    0.1876    0.0031    1
    4   -1    0    3    0.0088    0.1504    0.0088    0.1499    0.0004    1
    5   -3    2    5   -0.0593    0.0782   -0.0615    0.0665    0.0119    1
    6   -1    0   -3   -0.3655   -0.7926   -0.3626   -0.7930    0.0029    1
    7    0   -2    3    0.1450    0.0586    0.1477    0.0591    0.0028    1
    8    1   -2    0    0.0786   -0.0151    0.0790   -0.0154    0.0005    1
    9   -1   -2    0    0.6843   -0.0063    0.6879   -0.0069    0.0037    1
   10   -1   -1   -5    0.1815   -0.7788    0.1845   -0.7818    0.0043    1
   11    1   -1   -5    0.0529   -0.1552    0.0532   -0.1549    0.0004    1
   12    0   -2   -3    0.3766   -0.2907    0.3747   -0.2907    0.0019    1
   13   -1    1   -5   -0.2409   -0.2331   -0.2415   -0.2352    0.0023    1
   14   -1    1   -1   -0.2336   -0.0077   -0.2334   -0.0072    0.0006    1
   15    0   -1    2    0.0876    0.0487    0.0894    0.0482    0.0019    1
   16   -1   -1    5    0.0762    0.1216    0.0758    0.1206    0.0011    1
   17    0   -1   -5    0.1248   -0.4262    0.1219   -0.4292    0.0042    1
   18   -2    1   -6   -0.4076   -0.3770   -0.4045   -0.3765    0.0032    1
   19    0   -1   -2    0.3371   -0.3490    0.3388   -0.3445    0.0049    1

###            No.18                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.0297    0.5882    1.6674   88.1101   97.8261   90.4526      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.0581    0.5943    1.5907   90.0000   91.1577   90.0000      0.0000         0.6652    0.3736
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0006    0.0112    0.0256    0.0000    1.4805    0.0000      0.0000         0.0107    0.0067
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.2558    0.4520   -0.8314)
 a2 = (   -1.6014    0.1324    0.5578)
 a3 = (    0.1274    0.5667    0.1717)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.2640    0.3338   -0.8441) (    0.0069    0.0194    0.0066)
 a2 = (   -1.5748    0.1818    0.5645) (    0.0308    0.0129    0.0099)
 a3 = (    0.1315    0.5887    0.1774) (    0.0048    0.0094    0.0049)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -69.4111   72.5269  166.9810    0.3592    1.2121    0.5228
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0006    0.0008    0.0000      0.0022    0.0026    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.7532         6.7581
# Chi-squares at the beginning and the end of the refinement
    1.5660    0.0449
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3   -2    5   -0.4542   -0.1195   -0.3948   -0.0985    0.0630    0
    2    0    0    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -4   -2    1   -0.4887    0.1690   -0.4653    0.1876    0.0298    0
    4   -1    0   -3    0.0086    0.1464    0.0088    0.1499    0.0035    1
    5   -3   -2   -5   -0.0560    0.0748   -0.0615    0.0665    0.0100    1
    6   -1    0    4   -0.2996   -0.7103   -0.3626   -0.7930    0.1039    0
    7    0    2   -3    0.1443    0.0578    0.1477    0.0591    0.0036    1
    8    1    2    0    0.0788   -0.0163    0.0790   -0.0154    0.0010    1
    9   -1    2    0    0.6580    0.0418    0.6879   -0.0069    0.0572    0
   10   -1    1    6    0.1431   -0.7585    0.1845   -0.7818    0.0475    0
   11    1    1    5    0.0542   -0.1518    0.0532   -0.1549    0.0033    1
   12    0    3    5    0.3795   -0.2942    0.3747   -0.2907    0.0059    1
   13   -1   -1    5   -0.2504   -0.2258   -0.2415   -0.2352    0.0130    1
   14   -1   -1    1   -0.2244    0.0020   -0.2334   -0.0072    0.0128    1
   15    0    1   -2    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1    1   -5    0.0758    0.1206    0.0758    0.1206    0.0000    1
   17    0    1    5    0.1405   -0.4319    0.1219   -0.4292    0.0188    1
   18   -2   -1    6   -0.4431   -0.3640   -0.4045   -0.3765    0.0406    0
   19    0    1    2    0.3553   -0.3340    0.3388   -0.3445    0.0196    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3   -2    4   -0.4514   -0.0991   -0.3948   -0.0985    0.0566    0
    2    0    0    1   -0.0647   -0.2862   -0.0649   -0.2885    0.0023    1
    3   -2   -1    0   -0.4600    0.1864   -0.4653    0.1876    0.0054    1
    4   -1    0   -3    0.0086    0.1487    0.0088    0.1499    0.0012    1
    5   -3   -2   -5   -0.0584    0.0766   -0.0615    0.0665    0.0106    1
    6   -1    0    3   -0.3653   -0.7924   -0.3626   -0.7930    0.0028    1
    7    0    2   -3    0.1450    0.0584    0.1477    0.0591    0.0028    1
    8    1    2    0    0.0795   -0.0156    0.0790   -0.0154    0.0005    1
    9   -1    2    0    0.6831   -0.0062    0.6879   -0.0069    0.0049    1
   10   -1    1    5    0.1818   -0.7789    0.1845   -0.7818    0.0040    1
   11    1    1    5    0.0531   -0.1565    0.0532   -0.1549    0.0015    1
   12    0    2    3    0.3768   -0.2909    0.3747   -0.2907    0.0021    1
   13   -1   -1    5   -0.2408   -0.2328   -0.2415   -0.2352    0.0026    1
   14   -1   -1    1   -0.2322   -0.0078   -0.2334   -0.0072    0.0013    1
   15    0    1   -2    0.0876    0.0486    0.0894    0.0482    0.0019    1
   16   -1    1   -5    0.0757    0.1208    0.0758    0.1206    0.0002    1
   17    0    1    5    0.1249   -0.4268    0.1219   -0.4292    0.0038    1
   18   -2   -1    6   -0.4072   -0.3764   -0.4045   -0.3765    0.0028    1
   19    0    1    2    0.3374   -0.3494    0.3388   -0.3445    0.0051    1

###            No.21                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.3978    1.1175    2.2513   91.3642   90.3007   91.8378      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.4109    1.1054    2.2016   90.0000   89.6824   90.0000      0.0000         0.1866    0.5021
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0195    0.0498    0.0000    1.5221    0.0000      0.0000         0.0042    0.0095
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    2.3679   -0.1958   -0.8247)
 a2 = (    0.1884    0.8379    0.2539)
 a3 = (    0.1310   -0.1396    0.4010)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    2.2768   -0.2672   -0.8169) (    0.0050    0.0152    0.0145)
 a2 = (    0.1916    0.8459    0.2572) (    0.0060    0.0151    0.0063)
 a3 = (    0.1260   -0.1528    0.4088) (    0.0128    0.0046    0.0071)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -49.7366   26.0970   39.9829    0.6942    0.3369    0.7896
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0009    0.0019    0.0000      0.0028    0.0024    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.0828         6.7275
# Chi-squares at the beginning and the end of the refinement
    2.2335    0.0360
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    1    2    4   -0.3648   -0.1029   -0.3948   -0.0985    0.0303    0
    2    0    1    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    1    0    6   -0.4528    0.1483   -0.4653    0.1876    0.0412    0
    4    0   -1    1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5    1   -2    4   -0.0558    0.0539   -0.0615    0.0665    0.0139    1
    6    0    1    1   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7   -2   -3    0    0.1443    0.0578    0.1477    0.0591    0.0036    1
    8   -2    0   -3    0.0849   -0.0134    0.0790   -0.0154    0.0062    1
    9   -2    0    3    0.6568    0.0041    0.6879   -0.0069    0.0331    0
   10   -1    5    3    0.2028   -0.7785    0.1845   -0.7818    0.0186    1
   11   -1    5   -3    0.0614   -0.1623    0.0532   -0.1549    0.0111    1
   12   -2    3    0    0.3893   -0.2712    0.3747   -0.2907    0.0244    0
   13    1    5    3   -0.2303   -0.2224   -0.2415   -0.2352    0.0171    1
   14    1    1    3   -0.2131   -0.0161   -0.2334   -0.0072    0.0221    0
   15   -1   -2    0    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1   -5    3    0.0790    0.1196    0.0758    0.1206    0.0034    1
   17   -1    5    0    0.1405   -0.4319    0.1219   -0.4292    0.0188    1
   18    1    5    5   -0.3654   -0.3038   -0.4045   -0.3765    0.0826    0
   19   -1    2    0    0.3553   -0.3340    0.3388   -0.3445    0.0196    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    1    2    4   -0.3960   -0.0997   -0.3948   -0.0985    0.0016    1
    2    0    1    0   -0.0664   -0.2873   -0.0649   -0.2885    0.0019    1
    3    1    0    6   -0.4689    0.1846   -0.4653    0.1876    0.0047    1
    4    0   -1    1    0.0090    0.1530    0.0088    0.1499    0.0030    1
    5    1   -2    4   -0.0599    0.0651   -0.0615    0.0665    0.0022    1
    6    0    1    1   -0.3648   -0.7922   -0.3626   -0.7930    0.0023    1
    7   -2   -3    0    0.1450    0.0589    0.1477    0.0591    0.0028    1
    8   -2    0   -3    0.0785   -0.0141    0.0790   -0.0154    0.0014    1
    9   -2    0    3    0.6838   -0.0106    0.6879   -0.0069    0.0055    1
   10   -1    5    3    0.1813   -0.7801    0.1845   -0.7818    0.0037    1
   11   -1    5   -3    0.0533   -0.1565    0.0532   -0.1549    0.0015    1
   12   -2    3    0    0.3778   -0.2906    0.3747   -0.2907    0.0031    1
   13    1    5    3   -0.2427   -0.2327   -0.2415   -0.2352    0.0029    1
   14    1    1    3   -0.2347   -0.0080   -0.2334   -0.0072    0.0015    1
   15   -1   -2    0    0.0875    0.0492    0.0894    0.0482    0.0022    1
   16   -1   -5    3    0.0772    0.1227    0.0758    0.1206    0.0025    1
   17   -1    5    0    0.1254   -0.4287    0.1219   -0.4292    0.0036    1
   18    1    5    5   -0.3868   -0.3175   -0.4045   -0.3765    0.0616    0
   19   -1    2    0    0.3387   -0.3494    0.3388   -0.3445    0.0050    1

###            No.22                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.4171    1.0920    2.1986   88.6202   90.1450   92.6530      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.4109    1.1054    2.2016   90.0000   89.6824   90.0000      0.0000         0.1866    0.5021
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0195    0.0498    0.0000    1.5221    0.0000      0.0000         0.0042    0.0095
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -2.2170    0.3607    0.8459)
 a2 = (    0.1929    0.8580    0.2600)
 a3 = (   -0.1341    0.1429   -0.4106)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -2.2768    0.2672    0.8169) (    0.0050    0.0152    0.0145)
 a2 = (    0.1916    0.8459    0.2572) (    0.0060    0.0151    0.0063)
 a3 = (   -0.1260    0.1528   -0.4088) (    0.0128    0.0046    0.0071)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   49.7366  153.9030 -140.0171    0.6942    0.3369    0.7896
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0009    0.0019    0.0000      0.0028    0.0024    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.5254         6.7275
# Chi-squares at the beginning and the end of the refinement
    2.1148    0.0360
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1    2   -4   -0.3948   -0.0985   -0.3948   -0.0985    0.0000    1
    2    0    1    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1    0   -6   -0.4605    0.1857   -0.4653    0.1876    0.0052    1
    4    0   -1   -1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5   -1   -2   -4   -0.0519    0.0580   -0.0615    0.0665    0.0129    1
    6    0    1   -1   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7    2   -3    0    0.1600    0.0591    0.1477    0.0591    0.0123    1
    8    2    0    3    0.0900   -0.0214    0.0790   -0.0154    0.0125    1
    9    2    0   -3    0.7213   -0.0524    0.6879   -0.0069    0.0564    0
   10    1    5   -3    0.1549   -0.7689    0.1845   -0.7818    0.0323    0
   11    1    5    3    0.0530   -0.1627    0.0532   -0.1549    0.0078    1
   12    2    3    0    0.3705   -0.3166    0.3747   -0.2907    0.0262    0
   13   -1    5   -3   -0.2408   -0.2352   -0.2415   -0.2352    0.0008    1
   14   -1    1   -3   -0.2296   -0.0056   -0.2334   -0.0072    0.0041    1
   15    1   -2    0    0.0985    0.0513    0.0894    0.0482    0.0095    1
   16    1   -5   -3    0.0809    0.1268    0.0758    0.1206    0.0080    1
   17    1    5    0    0.1159   -0.4302    0.1219   -0.4292    0.0061    1
   18   -1    5   -6   -0.4593   -0.3539   -0.4045   -0.3765    0.0593    0
   19    1    2    0    0.3263   -0.3700    0.3388   -0.3445    0.0284    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1    2   -4   -0.3960   -0.0997   -0.3948   -0.0985    0.0016    1
    2    0    1    0   -0.0664   -0.2873   -0.0649   -0.2885    0.0019    1
    3   -1    0   -6   -0.4689    0.1846   -0.4653    0.1876    0.0047    1
    4    0   -1   -1    0.0090    0.1530    0.0088    0.1499    0.0030    1
    5   -1   -2   -4   -0.0599    0.0651   -0.0615    0.0665    0.0022    1
    6    0    1   -1   -0.3648   -0.7922   -0.3626   -0.7930    0.0023    1
    7    2   -3    0    0.1450    0.0589    0.1477    0.0591    0.0028    1
    8    2    0    3    0.0785   -0.0141    0.0790   -0.0154    0.0014    1
    9    2    0   -3    0.6838   -0.0106    0.6879   -0.0069    0.0055    1
   10    1    5   -3    0.1813   -0.7801    0.1845   -0.7818    0.0037    1
   11    1    5    3    0.0533   -0.1565    0.0532   -0.1549    0.0015    1
   12    2    3    0    0.3778   -0.2906    0.3747   -0.2907    0.0031    1
   13   -1    5   -3   -0.2427   -0.2327   -0.2415   -0.2352    0.0029    1
   14   -1    1   -3   -0.2347   -0.0080   -0.2334   -0.0072    0.0015    1
   15    1   -2    0    0.0875    0.0492    0.0894    0.0482    0.0022    1
   16    1   -5   -3    0.0772    0.1227    0.0758    0.1206    0.0025    1
   17    1    5    0    0.1254   -0.4287    0.1219   -0.4292    0.0036    1
   18   -1    5   -5   -0.3868   -0.3175   -0.4045   -0.3765    0.0616    0
   19    1    2    0    0.3387   -0.3494    0.3388   -0.3445    0.0050    1

###            No.23                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.6007    1.0433    1.6043   87.3664   93.2204   94.4531      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.5931    1.0596    1.5911   90.0000   89.7386   90.0000      0.0000         0.3728    0.6660
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0192    0.0285    0.0000    0.8167    0.0000      0.0000         0.0067    0.0106
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    1.5689   -0.1527   -0.5574)
 a2 = (   -0.2145    0.2759   -0.8965)
 a3 = (    0.1524    0.5815    0.1705)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    1.5767   -0.1882   -0.5667) (    0.0041    0.0163    0.0095)
 a2 = (   -0.2667    0.3181   -0.8475) (    0.0092    0.0071    0.0146)
 a3 = (    0.1315    0.5879    0.1792) (    0.0055    0.0108    0.0045)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -159.4800   73.5216  167.1340    0.3495    0.3440    0.5489
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0006    0.0018    0.0000      0.0022    0.0024    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.1335         6.5896
# Chi-squares at the beginning and the end of the refinement
    4.7071    0.0632
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -3    4   -0.4787   -0.1300   -0.3948   -0.0985    0.0896    0
    2    0    0    1   -0.0719   -0.2744   -0.0649   -0.2885    0.0157    1
    3    2   -4   -1   -0.4720    0.2445   -0.4653    0.1876    0.0572    0
    4    0   -1   -3    0.0226    0.1878    0.0088    0.1499    0.0403    0
    5    2   -3   -6   -0.0534    0.0862   -0.0615    0.0665    0.0212    0
    6    0   -1    3   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7   -2    0   -3    0.1446    0.0579    0.1477    0.0591    0.0033    1
    8   -2    1    0    0.0632   -0.0110    0.0790   -0.0154    0.0164    1
    9   -2   -1    0    0.6879   -0.0069    0.6879   -0.0069    0.0000    1
   10   -1   -1    5    0.1687   -0.7925    0.1845   -0.7818    0.0191    1
   11   -1    1    5    0.0431   -0.1408    0.0532   -0.1549    0.0174    1
   12   -2    0    3    0.3828   -0.2928    0.3747   -0.2907    0.0084    1
   13    1   -1    5   -0.2403   -0.2340   -0.2415   -0.2352    0.0017    1
   14    3   -3    2   -0.2401    0.0052   -0.2334   -0.0072    0.0141    1
   15   -1    0   -2    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1   -1   -5    0.0931    0.1333    0.0758    0.1206    0.0215    0
   17   -1    0    5    0.1136   -0.4308    0.1219   -0.4292    0.0084    1
   18    1   -2    6   -0.4052   -0.3874   -0.4045   -0.3765    0.0110    1
   19   -1    0    2    0.3412   -0.3551    0.3388   -0.3445    0.0109    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -3    4   -0.4518   -0.1011   -0.3948   -0.0985    0.0571    0
    2    0    0    1   -0.0656   -0.2886   -0.0649   -0.2885    0.0007    1
    3    1   -2    0   -0.4645    0.1830   -0.4653    0.1876    0.0047    1
    4    0   -1   -3    0.0085    0.1500    0.0088    0.1499    0.0003    1
    5    2   -3   -5   -0.0587    0.0770   -0.0615    0.0665    0.0109    1
    6    0   -1    3   -0.3631   -0.7907   -0.3626   -0.7930    0.0023    1
    7   -2    0   -3    0.1450    0.0587    0.1477    0.0591    0.0027    1
    8   -2    1    0    0.0797   -0.0145    0.0790   -0.0154    0.0011    1
    9   -2   -1    0    0.6853   -0.0121    0.6879   -0.0069    0.0058    1
   10   -1   -1    5    0.1806   -0.7786    0.1845   -0.7818    0.0051    1
   11   -1    1    5    0.0543   -0.1579    0.0532   -0.1549    0.0032    1
   12   -2    0    3    0.3776   -0.2916    0.3747   -0.2907    0.0030    1
   13    1   -1    5   -0.2424   -0.2335   -0.2415   -0.2352    0.0020    1
   14    1   -1    1   -0.2332   -0.0078   -0.2334   -0.0072    0.0007    1
   15   -1    0   -2    0.0873    0.0489    0.0894    0.0482    0.0023    1
   16   -1   -1   -5    0.0761    0.1214    0.0758    0.1206    0.0009    1
   17   -1    0    5    0.1259   -0.4288    0.1219   -0.4292    0.0041    1
   18    1   -2    6   -0.4073   -0.3774   -0.4045   -0.3765    0.0029    1
   19   -1    0    2    0.3383   -0.3501    0.3388   -0.3445    0.0057    1

###            No.26                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.5893    1.0261    1.6566   87.3248   91.8972   91.1584      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.5931    1.0596    1.5911   90.0000   89.7386   90.0000      0.0000         0.3728    0.6660
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0192    0.0285    0.0000    0.8167    0.0000      0.0000         0.0067    0.0106
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -1.5987    0.1322    0.5568)
 a2 = (   -0.2866    0.3717   -0.8555)
 a3 = (   -0.1272   -0.5657   -0.1714)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -1.5767    0.1882    0.5667) (    0.0041    0.0163    0.0095)
 a2 = (   -0.2667    0.3181   -0.8475) (    0.0092    0.0071    0.0146)
 a3 = (   -0.1315   -0.5879   -0.1792) (    0.0055    0.0108    0.0045)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  159.4800  106.4784  -12.8660    0.3495    0.3440    0.5489
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0006    0.0018    0.0000      0.0022    0.0024    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.8241         6.5896
# Chi-squares at the beginning and the end of the refinement
    3.8771    0.0632
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -3   -4   -0.4515   -0.0873   -0.3948   -0.0985    0.0578    0
    2    0    0   -1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1   -2    0   -0.4571    0.1843   -0.4653    0.1876    0.0089    1
    4    0   -1    3    0.0076    0.1645    0.0088    0.1499    0.0147    1
    5   -2   -3    5   -0.0693    0.0852   -0.0615    0.0665    0.0202    0
    6    0   -1   -4   -0.2912   -0.6925   -0.3626   -0.7930    0.1232    0
    7    2    0    3    0.1443    0.0578    0.1477    0.0591    0.0036    1
    8    2    1    0    0.0717   -0.0131    0.0790   -0.0154    0.0077    1
    9    2   -1    0    0.6756    0.0249    0.6879   -0.0069    0.0342    0
   10    1   -1   -5    0.2143   -0.8206    0.1845   -0.7818    0.0489    0
   11    1    1   -5    0.0551   -0.1470    0.0532   -0.1549    0.0082    1
   12    3    0   -5    0.3795   -0.2942    0.3747   -0.2907    0.0059    1
   13   -1   -1   -5   -0.2478   -0.2285   -0.2415   -0.2352    0.0092    1
   14   -1   -1   -1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    1    0    2    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    1   -1    5    0.0819    0.1289    0.0758    0.1206    0.0103    1
   17    1    0   -5    0.1405   -0.4319    0.1219   -0.4292    0.0188    1
   18   -1   -2   -6   -0.4283   -0.3675   -0.4045   -0.3765    0.0254    0
   19    1    0   -2    0.3553   -0.3340    0.3388   -0.3445    0.0196    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -3   -4   -0.4518   -0.1011   -0.3948   -0.0985    0.0571    0
    2    0    0   -1   -0.0656   -0.2886   -0.0649   -0.2885    0.0007    1
    3   -1   -2    0   -0.4645    0.1830   -0.4653    0.1876    0.0047    1
    4    0   -1    3    0.0085    0.1500    0.0088    0.1499    0.0003    1
    5   -2   -3    5   -0.0587    0.0770   -0.0615    0.0665    0.0109    1
    6    0   -1   -3   -0.3631   -0.7907   -0.3626   -0.7930    0.0023    1
    7    2    0    3    0.1450    0.0587    0.1477    0.0591    0.0027    1
    8    2    1    0    0.0797   -0.0145    0.0790   -0.0154    0.0011    1
    9    2   -1    0    0.6853   -0.0121    0.6879   -0.0069    0.0058    1
   10    1   -1   -5    0.1806   -0.7786    0.1845   -0.7818    0.0051    1
   11    1    1   -5    0.0543   -0.1579    0.0532   -0.1549    0.0032    1
   12    2    0   -3    0.3776   -0.2916    0.3747   -0.2907    0.0030    1
   13   -1   -1   -5   -0.2424   -0.2335   -0.2415   -0.2352    0.0020    1
   14   -1   -1   -1   -0.2332   -0.0078   -0.2334   -0.0072    0.0007    1
   15    1    0    2    0.0873    0.0489    0.0894    0.0482    0.0023    1
   16    1   -1    5    0.0761    0.1214    0.0758    0.1206    0.0009    1
   17    1    0   -5    0.1259   -0.4288    0.1219   -0.4292    0.0041    1
   18   -1   -2   -6   -0.4073   -0.3774   -0.4045   -0.3765    0.0029    1
   19    1    0   -2    0.3383   -0.3501    0.3388   -0.3445    0.0057    1

###            No.27                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.5928    1.5810    1.0726   86.9157   94.4187   92.6709      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.5914    1.5935    1.0611   90.0000   90.2594   90.0000      0.0000         0.5574    1.5017
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0341    0.0253    0.0000    1.8913    0.0000      0.0000         0.0132    0.0297
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -1.5831    0.1541    0.5810)
 a2 = (   -0.1537   -0.5868   -0.1845)
 a3 = (    0.2164   -0.2784    0.8674)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -1.5814    0.1813    0.5702) (    0.0047    0.0122    0.0133)
 a2 = (   -0.1319   -0.5868   -0.1792) (    0.0056    0.0125    0.0051)
 a3 = (    0.2643   -0.3180    0.8469) (    0.0301    0.0101    0.0173)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  130.2542   26.2219   40.1146    0.7650    0.4577    0.8461
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0008    0.0015    0.0000      0.0029    0.0025    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.3290         6.4371
# Chi-squares at the beginning and the end of the refinement
    1.6743    0.0554
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -4    3   -0.4578   -0.1244   -0.3948   -0.0985    0.0681    0
    2    0   -1    0   -0.0771   -0.2942   -0.0649   -0.2885    0.0135    1
    3   -1    0    2   -0.5090    0.1795   -0.4653    0.1876    0.0444    0
    4    0    3    1    0.0182    0.1518    0.0088    0.1499    0.0096    1
    5   -2    5    3   -0.0609    0.0815   -0.0615    0.0665    0.0150    1
    6    0   -3    1   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    2    3    0    0.1446    0.0579    0.1477    0.0591    0.0033    1
    8    2    0   -1    0.0846   -0.0147    0.0790   -0.0154    0.0056    1
    9    2    0    1    0.6879   -0.0069    0.6879   -0.0069    0.0000    1
   10    1   -5    1    0.1718   -0.8073    0.1845   -0.7818    0.0284    1
   11    1   -5   -1    0.0529   -0.1728    0.0532   -0.1549    0.0178    1
   12    2   -3    0    0.4002   -0.3060    0.3747   -0.2907    0.0297    0
   13   -1   -5    1   -0.2415   -0.2352   -0.2415   -0.2352    0.0000    1
   14   -1   -1    1   -0.2396   -0.0189   -0.2334   -0.0072    0.0133    1
   15    1    2    0    0.0869    0.0469    0.0894    0.0482    0.0029    1
   16    1    5    1    0.0807    0.1156    0.0758    0.1206    0.0070    1
   17    1   -5    0    0.1201   -0.4552    0.1219   -0.4292    0.0261    0
   18   -1   -6    2   -0.4019   -0.3843   -0.4045   -0.3765    0.0082    1
   19    1   -2    0    0.3575   -0.3721    0.3388   -0.3445    0.0333    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -4    3   -0.4493   -0.1016   -0.3948   -0.0985    0.0546    0
    2    0   -1    0   -0.0661   -0.2892   -0.0649   -0.2885    0.0014    1
    3   -1    0    2   -0.4638    0.1808   -0.4653    0.1876    0.0070    1
    4    0    3    1    0.0086    0.1497    0.0088    0.1499    0.0003    1
    5   -2    5    3   -0.0582    0.0756   -0.0615    0.0665    0.0096    1
    6    0   -3    1   -0.3639   -0.7922   -0.3626   -0.7930    0.0015    1
    7    2    3    0    0.1460    0.0591    0.1477    0.0591    0.0017    1
    8    2    0   -1    0.0816   -0.0149    0.0790   -0.0154    0.0026    1
    9    2    0    1    0.6846   -0.0091    0.6879   -0.0069    0.0039    1
   10    1   -5    1    0.1834   -0.7820    0.1845   -0.7818    0.0011    1
   11    1   -5   -1    0.0549   -0.1596    0.0532   -0.1549    0.0050    1
   12    2   -3    0    0.3809   -0.2914    0.3747   -0.2907    0.0062    1
   13   -1   -5    1   -0.2415   -0.2325   -0.2415   -0.2352    0.0028    1
   14   -1   -1    1   -0.2308   -0.0087   -0.2334   -0.0072    0.0030    1
   15    1    2    0    0.0883    0.0493    0.0894    0.0482    0.0016    1
   16    1    5    1    0.0765    0.1215    0.0758    0.1206    0.0011    1
   17    1   -5    0    0.1273   -0.4312    0.1219   -0.4292    0.0058    1
   18   -1   -6    2   -0.4064   -0.3765   -0.4045   -0.3765    0.0019    1
   19    1   -2    0    0.3417   -0.3507    0.3388   -0.3445    0.0069    1

###            No.30                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.5893    1.6566    1.0261   87.3248   91.1584   91.8972      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.5915    1.5909    1.0628   90.0000   89.4809   90.0000      0.0000         0.5565    1.4969
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0290    0.0244    0.0000    1.5340    0.0000      0.0000         0.0127    0.0280
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    1.5987   -0.1322   -0.5568)
 a2 = (    0.1272    0.5657    0.1714)
 a3 = (    0.2866   -0.3717    0.8555)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    1.5814   -0.1849   -0.5689) (    0.0035    0.0109    0.0101)
 a2 = (    0.1331    0.5876    0.1791) (    0.0042    0.0109    0.0044)
 a3 = (    0.2587   -0.3168    0.8474) (    0.0265    0.0096    0.0151)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -49.7428   26.1591   39.9996    0.6867    0.3352    0.7977
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0012    0.0018    0.0000      0.0027    0.0024    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.8241         6.4248
# Chi-squares at the beginning and the end of the refinement
    1.7075    0.0628
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    4    3   -0.4515   -0.0873   -0.3948   -0.0985    0.0578    0
    2    0    1    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    1    0    2   -0.4571    0.1843   -0.4653    0.1876    0.0089    1
    4    0   -3    1    0.0076    0.1645    0.0088    0.1499    0.0147    1
    5    2   -5    3   -0.0693    0.0852   -0.0615    0.0665    0.0202    0
    6    0    4    1   -0.2912   -0.6925   -0.3626   -0.7930    0.1232    0
    7   -2   -3    0    0.1443    0.0578    0.1477    0.0591    0.0036    1
    8   -2    0   -1    0.0717   -0.0131    0.0790   -0.0154    0.0077    1
    9   -2    0    1    0.6756    0.0249    0.6879   -0.0069    0.0342    0
   10   -1    5    1    0.2143   -0.8206    0.1845   -0.7818    0.0489    0
   11   -1    5   -1    0.0551   -0.1470    0.0532   -0.1549    0.0082    1
   12   -3    5    0    0.3795   -0.2942    0.3747   -0.2907    0.0059    1
   13    1    5    1   -0.2478   -0.2285   -0.2415   -0.2352    0.0092    1
   14    1    1    1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15   -1   -2    0    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1   -5    1    0.0819    0.1289    0.0758    0.1206    0.0103    1
   17   -1    5    0    0.1405   -0.4319    0.1219   -0.4292    0.0188    1
   18    1    6    2   -0.4283   -0.3675   -0.4045   -0.3765    0.0254    0
   19   -1    2    0    0.3553   -0.3340    0.3388   -0.3445    0.0196    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    4    3   -0.4516   -0.1020   -0.3948   -0.0985    0.0569    0
    2    0    1    0   -0.0669   -0.2881   -0.0649   -0.2885    0.0021    1
    3    1    0    2   -0.4669    0.1834   -0.4653    0.1876    0.0044    1
    4    0   -3    1    0.0088    0.1503    0.0088    0.1499    0.0003    1
    5    2   -5    3   -0.0590    0.0770   -0.0615    0.0665    0.0108    1
    6    0    3    1   -0.3622   -0.7914   -0.3626   -0.7930    0.0016    1
    7   -2   -3    0    0.1450    0.0590    0.1477    0.0591    0.0027    1
    8   -2    0   -1    0.0804   -0.0146    0.0790   -0.0154    0.0016    1
    9   -2    0    1    0.6821   -0.0106    0.6879   -0.0069    0.0069    1
   10   -1    5    1    0.1817   -0.7791    0.1845   -0.7818    0.0039    1
   11   -1    5   -1    0.0536   -0.1588    0.0532   -0.1549    0.0039    1
   12   -2    3    0    0.3787   -0.2913    0.3747   -0.2907    0.0040    1
   13    1    5    1   -0.2420   -0.2324   -0.2415   -0.2352    0.0029    1
   14    1    1    1   -0.2327   -0.0083   -0.2334   -0.0072    0.0013    1
   15   -1   -2    0    0.0874    0.0493    0.0894    0.0482    0.0023    1
   16   -1   -5    1    0.0762    0.1213    0.0758    0.1206    0.0008    1
   17   -1    5    0    0.1254   -0.4299    0.1219   -0.4292    0.0036    1
   18    1    6    2   -0.4067   -0.3770   -0.4045   -0.3765    0.0022    1
   19   -1    2    0    0.3394   -0.3504    0.3388   -0.3445    0.0060    1

###            No.31                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.7998    0.8342    1.5276   86.3181   99.9771   94.0046      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.7632    0.8605    1.5230   90.0000   88.8392   90.0000      0.0000         0.5011    0.5650
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0004    0.0192    0.0305    0.0000    1.5041    0.0000      0.0000         0.0100    0.0106
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.2469    1.1872    0.3832)
 a2 = (   -1.1187    0.1786    0.4058)
 a3 = (    0.2388   -0.1252    0.6086)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.2732    1.2275    0.3688) (    0.0098    0.0036    0.0082)
 a2 = (   -1.0876    0.1249    0.3900) (    0.0252    0.0087    0.0088)
 a3 = (    0.1838   -0.2313    0.5865) (    0.0068    0.0141    0.0125)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   39.9804   25.9729   40.4402    0.8168    0.3658    0.9492
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0003    0.0007    0.0000      0.0023    0.0026    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.9466         4.0282
# Chi-squares at the beginning and the end of the refinement
    5.1704    0.1194
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -3    4   -0.3831   -0.1066   -0.3948   -0.0985    0.0143    1
    2    1    0    0   -0.0643   -0.3094   -0.0649   -0.2885    0.0210    0
    3    0   -1    2   -0.4740    0.1274   -0.4653    0.1876    0.0608    0
    4   -1    0    1    0.0011    0.1717    0.0088    0.1499    0.0231    0
    5   -2   -3    4   -0.0656    0.0586   -0.0615    0.0665    0.0089    1
    6    1    0    1   -0.3532   -0.7724   -0.3626   -0.7930    0.0226    1
    7   -1    2    0    0.1551    0.0518    0.1477    0.0591    0.0104    1
    8    0    2   -1    0.0790   -0.0154    0.0790   -0.0154    0.0000    1
    9    0    2    1    0.7011   -0.0814    0.6879   -0.0069    0.0756    0
   10    3    2    2    0.2235   -0.8044    0.1845   -0.7818    0.0450    0
   11    3    2   -2    0.0691   -0.1458    0.0532   -0.1549    0.0183    0
   12    1    2    0    0.3747   -0.2907    0.3747   -0.2907    0.0000    1
   13    3   -2    2   -0.2600   -0.2223   -0.2415   -0.2352    0.0226    0
   14    1   -3    3   -0.2286   -0.0146   -0.2334   -0.0072    0.0088    1
   15   -2    3    0    0.0954    0.0456    0.0894    0.0482    0.0065    1
   16   -3    1    2    0.0433    0.1138    0.0758    0.1206    0.0333    0
   17    2    1    0    0.1061   -0.4332    0.1219   -0.4292    0.0163    1
   18    2   -1    2   -0.4045   -0.3765   -0.4045   -0.3765    0.0000    1
   19    2    3    0    0.3408   -0.3465    0.3388   -0.3445    0.0029    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -3    4   -0.3959   -0.0998   -0.3948   -0.0985    0.0017    1
    2    1    0    0   -0.0640   -0.2855   -0.0649   -0.2885    0.0031    1
    3    0   -1    2   -0.4630    0.1876   -0.4653    0.1876    0.0023    1
    4   -1    0    1    0.0088    0.1494    0.0088    0.1499    0.0005    1
    5   -2   -3    4   -0.0585    0.0640   -0.0615    0.0665    0.0039    1
    6    1    0    1   -0.3637   -0.7915   -0.3626   -0.7930    0.0018    1
    7   -1    2    0    0.1446    0.0585    0.1477    0.0591    0.0032    1
    8    0    2   -1    0.0784   -0.0154    0.0790   -0.0154    0.0006    1
    9    0    2    1    0.6858   -0.0057    0.6879   -0.0069    0.0024    1
   10    3    2    2    0.2319   -0.8149    0.1845   -0.7818    0.0578    0
   11    3    2   -2    0.0548   -0.1399    0.0532   -0.1549    0.0151    1
   12    1    2    0    0.3764   -0.2919    0.3747   -0.2907    0.0020    1
   13    3   -2    2   -0.2508   -0.2205   -0.2415   -0.2352    0.0174    1
   14    1   -3    3   -0.2344   -0.0084   -0.2334   -0.0072    0.0016    1
   15   -2    3    0    0.0871    0.0485    0.0894    0.0482    0.0023    1
   16   -3    2    2    0.1005    0.1501    0.0758    0.1206    0.0385    0
   17    3    2    0    0.1475   -0.4280    0.1219   -0.4292    0.0256    0
   18    2   -1    2   -0.4065   -0.3782   -0.4045   -0.3765    0.0026    1
   19    2    3    0    0.3364   -0.3501    0.3388   -0.3445    0.0061    1

###            No.32                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.1941    0.7604    1.1938   89.6623  112.6525   91.6221      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.1939    0.7478    1.2150   90.0000  112.7883   90.0000      0.0000         0.9826    0.6155
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0077    0.0187    0.0313    0.0000    0.8788    0.0000      0.0000         0.0241    0.0120
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.1235   -0.7265    0.5301)
 a2 = (    1.2244   -0.1674   -0.4512)
 a3 = (    0.3353    0.2153    0.8155)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.1054   -0.7310    0.5291) (    0.0086    0.0087    0.0111)
 a2 = (    1.2519   -0.1437   -0.4479) (    0.0322    0.0113    0.0111)
 a3 = (    0.3134    0.2025    0.8110) (    0.0100    0.0188    0.0168)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  119.9003   42.2070  150.3803    0.6971    0.8534    0.7644
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0005    0.0008    0.0000      0.0023    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.7913         3.8174
# Chi-squares at the beginning and the end of the refinement
    1.0510    0.0476
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    0    3    4   -0.3787   -0.0271   -0.3948   -0.0985    0.0732    0
    2   -1    0    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    1    1    1   -0.4571    0.1843   -0.4653    0.1876    0.0089    1
    4    2    0   -1    0.0077    0.1463    0.0088    0.1499    0.0038    1
    5    4    2   -1   -0.0560    0.0742   -0.0615    0.0665    0.0095    1
    6   -1    0    2   -0.3676   -0.7777   -0.3626   -0.7930    0.0161    1
    7    2   -3   -2    0.1716    0.0579    0.1477    0.0591    0.0239    0
    8   -1   -4   -1    0.0818   -0.0180    0.0790   -0.0154    0.0038    1
    9    1   -4    1    0.7089   -0.0253    0.6879   -0.0069    0.0279    1
   10   -2   -1    3    0.1599   -0.7780    0.1845   -0.7818    0.0249    1
   11   -3   -1    2    0.0531   -0.1595    0.0532   -0.1549    0.0045    1
   12   -2   -3    2    0.3848   -0.2825    0.3747   -0.2907    0.0130    1
   13   -2    1    3   -0.2420   -0.2357   -0.2415   -0.2352    0.0006    1
   14    0    1    1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    1   -1   -1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    3   -1   -2    0.0755    0.1210    0.0758    0.1206    0.0005    1
   17   -3   -1    3    0.0828   -0.4206    0.1219   -0.4292    0.0400    0
   18   -2    1    4   -0.4065   -0.3764   -0.4045   -0.3765    0.0021    1
   19   -1   -1    1    0.3307   -0.3622    0.3388   -0.3445    0.0195    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    0    3    4   -0.3777   -0.0277   -0.3948   -0.0985    0.0728    0
    2   -1    0    1   -0.0646   -0.2869   -0.0649   -0.2885    0.0016    1
    3    1    1    1   -0.4601    0.1858   -0.4653    0.1876    0.0055    1
    4    2    0   -1    0.0087    0.1488    0.0088    0.1499    0.0012    1
    5    4    2   -1   -0.0584    0.0765   -0.0615    0.0665    0.0105    1
    6   -1    0    2   -0.3652   -0.7939   -0.3626   -0.7930    0.0028    1
    7    2   -3   -2    0.1667    0.0583    0.1477    0.0591    0.0190    0
    8   -1   -4   -1    0.0794   -0.0154    0.0790   -0.0154    0.0004    1
    9    1   -4    1    0.6819   -0.0061    0.6879   -0.0069    0.0061    1
   10   -2   -1    3    0.1837   -0.7793    0.1845   -0.7818    0.0026    1
   11   -3   -1    2    0.0536   -0.1566    0.0532   -0.1549    0.0018    1
   12   -2   -3    2    0.3872   -0.2659    0.3747   -0.2907    0.0278    0
   13   -2    1    3   -0.2411   -0.2330   -0.2415   -0.2352    0.0023    1
   14    0    1    1   -0.2322   -0.0079   -0.2334   -0.0072    0.0014    1
   15    1   -1   -1    0.0875    0.0484    0.0894    0.0482    0.0020    1
   16    3   -1   -2    0.0758    0.1206    0.0758    0.1206    0.0000    1
   17   -3   -1    3    0.0892   -0.4195    0.1219   -0.4292    0.0341    0
   18   -2    1    4   -0.4077   -0.3768   -0.4045   -0.3765    0.0032    1
   19   -1   -1    1    0.3381   -0.3486    0.3388   -0.3445    0.0042    1

###            No.33                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.1897    0.7644    1.1935   91.2483  112.8394   90.2325      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.2150    0.7478    1.1939   90.0000  112.7883   90.0000      0.0000         1.0177    0.6263
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0078    0.0144    0.0299    0.0000    0.8788    0.0000      0.0000         0.0250    0.0155
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.3455   -0.2123   -0.8170)
 a2 = (   -1.2170    0.1644    0.4521)
 a3 = (   -0.1238    0.7278   -0.5311)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.3134   -0.2025   -0.8110) (    0.0052    0.0145    0.0042)
 a2 = (   -1.2519    0.1437    0.4479) (    0.0258    0.0105    0.0079)
 a3 = (   -0.1054    0.7310   -0.5291) (    0.0079    0.0256    0.0073)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -69.7646  104.4791  178.7173    0.3964    0.9310    0.5072
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0005    0.0008    0.0000      0.0023    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.3688         3.8174
# Chi-squares at the beginning and the end of the refinement
    0.8930    0.0476
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -4   -2    1   -0.4455   -0.1506   -0.3948   -0.0985    0.0727    0
    2   -1    0    1   -0.0680   -0.2882   -0.0649   -0.2885    0.0031    1
    3   -1   -1   -1   -0.4571    0.1843   -0.4653    0.1876    0.0089    1
    4    1    0   -2    0.0086    0.1464    0.0088    0.1499    0.0035    1
    5    1   -2   -4   -0.0560    0.0748   -0.0615    0.0665    0.0100    1
    6   -2    0    1   -0.3792   -0.7704   -0.3626   -0.7930    0.0280    1
    7    2    3   -2    0.1718    0.0582    0.1477    0.0591    0.0241    0
    8    1    4    1    0.0822   -0.0181    0.0790   -0.0154    0.0042    1
    9   -1    4   -1    0.7169   -0.0231    0.6879   -0.0069    0.0331    0
   10   -3    1    2    0.1493   -0.7874    0.1845   -0.7818    0.0356    0
   11   -2    1    3    0.0521   -0.1609    0.0532   -0.1549    0.0061    1
   12   -2    3    2    0.3885   -0.2874    0.3747   -0.2907    0.0141    1
   13   -3   -1    2   -0.2428   -0.2334   -0.2415   -0.2352    0.0023    1
   14   -1   -1    0   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    1    1   -1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    2    1   -3    0.0758    0.1206    0.0758    0.1206    0.0000    1
   17   -3    1    3    0.0784   -0.4244    0.1219   -0.4292    0.0437    0
   18   -4   -1    2   -0.4079   -0.3713   -0.4045   -0.3765    0.0062    1
   19   -1    1    1    0.3323   -0.3688    0.3388   -0.3445    0.0252    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -4   -3    0   -0.3777   -0.0277   -0.3948   -0.0985    0.0728    0
    2   -1    0    1   -0.0646   -0.2869   -0.0649   -0.2885    0.0016    1
    3   -1   -1   -1   -0.4601    0.1858   -0.4653    0.1876    0.0055    1
    4    1    0   -2    0.0087    0.1488    0.0088    0.1499    0.0012    1
    5    1   -2   -4   -0.0584    0.0765   -0.0615    0.0665    0.0105    1
    6   -2    0    1   -0.3652   -0.7939   -0.3626   -0.7930    0.0028    1
    7    2    3   -2    0.1667    0.0583    0.1477    0.0591    0.0190    0
    8    1    4    1    0.0794   -0.0154    0.0790   -0.0154    0.0004    1
    9   -1    4   -1    0.6819   -0.0061    0.6879   -0.0069    0.0061    1
   10   -3    1    2    0.1837   -0.7793    0.1845   -0.7818    0.0026    1
   11   -2    1    3    0.0536   -0.1566    0.0532   -0.1549    0.0018    1
   12   -2    3    2    0.3872   -0.2659    0.3747   -0.2907    0.0278    0
   13   -3   -1    2   -0.2411   -0.2330   -0.2415   -0.2352    0.0023    1
   14   -1   -1    0   -0.2322   -0.0079   -0.2334   -0.0072    0.0014    1
   15    1    1   -1    0.0875    0.0484    0.0894    0.0482    0.0020    1
   16    2    1   -3    0.0758    0.1206    0.0758    0.1206    0.0000    1
   17   -3    1    3    0.0892   -0.4195    0.1219   -0.4292    0.0341    0
   18   -4   -1    2   -0.4077   -0.3768   -0.4045   -0.3765    0.0032    1
   19   -1    1    1    0.3381   -0.3486    0.3388   -0.3445    0.0042    1

###            No.34                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.1732    0.7459    1.2340   94.6193  111.5994   90.4618      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.2150    0.7478    1.1939   90.0000  112.7883   90.0000      0.0000         1.0177    0.6263
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0078    0.0144    0.0299    0.0000    0.8788    0.0000      0.0000         0.0250    0.0155
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.2938    0.2448    0.8340)
 a2 = (   -1.2565    0.1223    0.4670)
 a3 = (    0.0497   -0.6867    0.5402)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.3134    0.2025    0.8110) (    0.0052    0.0145    0.0042)
 a2 = (   -1.2519    0.1437    0.4479) (    0.0258    0.0105    0.0079)
 a3 = (    0.1054   -0.7310    0.5291) (    0.0079    0.0256    0.0073)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   69.7646   75.5209   -1.2827    0.3964    0.9310    0.5072
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0005    0.0008    0.0000      0.0023    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.6058         3.8174
# Chi-squares at the beginning and the end of the refinement
    4.8533    0.0476
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    4   -3    0   -0.3854   -0.0477   -0.3948   -0.0985    0.0517    0
    2    1    0   -1   -0.0773   -0.2951   -0.0649   -0.2885    0.0141    1
    3    1   -1    1   -0.5042    0.1778   -0.4653    0.1876    0.0401    0
    4   -1    0    2    0.0180    0.1501    0.0088    0.1499    0.0092    1
    5   -1   -3    5   -0.0574    0.0623   -0.0615    0.0665    0.0059    1
    6    2    0   -1   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7   -2    3    2    0.1701    0.0598    0.1477    0.0591    0.0224    0
    8   -1    4   -1    0.0893   -0.0155    0.0790   -0.0154    0.0103    1
    9    1    3    0    0.6237   -0.1098    0.6879   -0.0069    0.1212    0
   10    3    1   -2    0.1724   -0.8102    0.1845   -0.7818    0.0308    1
   11    3    2   -5    0.0601   -0.1410    0.0532   -0.1549    0.0156    1
   12    2    3   -2    0.4146   -0.2817    0.3747   -0.2907    0.0409    0
   13    3   -1   -2   -0.2403   -0.2340   -0.2415   -0.2352    0.0017    1
   14    1   -1    0   -0.2352   -0.0186   -0.2334   -0.0072    0.0116    1
   15   -1    1    1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -2    1    3    0.0812    0.1162    0.0758    0.1206    0.0069    1
   17    3    1   -3    0.0805   -0.4478    0.1219   -0.4292    0.0454    0
   18    4   -1   -2   -0.4006   -0.3830   -0.4045   -0.3765    0.0076    1
   19    1    1   -1    0.3607   -0.3754    0.3388   -0.3445    0.0379    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    4   -3    0   -0.3777   -0.0277   -0.3948   -0.0985    0.0728    0
    2    1    0   -1   -0.0646   -0.2869   -0.0649   -0.2885    0.0016    1
    3    1   -1    1   -0.4601    0.1858   -0.4653    0.1876    0.0055    1
    4   -1    0    2    0.0087    0.1488    0.0088    0.1499    0.0012    1
    5   -1   -2    4   -0.0584    0.0765   -0.0615    0.0665    0.0105    1
    6    2    0   -1   -0.3652   -0.7939   -0.3626   -0.7930    0.0028    1
    7   -2    3    2    0.1667    0.0583    0.1477    0.0591    0.0190    0
    8   -1    4   -1    0.0794   -0.0154    0.0790   -0.0154    0.0004    1
    9    1    4    1    0.6819   -0.0061    0.6879   -0.0069    0.0061    1
   10    3    1   -2    0.1837   -0.7793    0.1845   -0.7818    0.0026    1
   11    2    1   -3    0.0536   -0.1566    0.0532   -0.1549    0.0018    1
   12    2    3   -2    0.3872   -0.2659    0.3747   -0.2907    0.0278    0
   13    3   -1   -2   -0.2411   -0.2330   -0.2415   -0.2352    0.0023    1
   14    1   -1    0   -0.2322   -0.0079   -0.2334   -0.0072    0.0014    1
   15   -1    1    1    0.0875    0.0484    0.0894    0.0482    0.0020    1
   16   -2    1    3    0.0758    0.1206    0.0758    0.1206    0.0000    1
   17    3    1   -3    0.0892   -0.4195    0.1219   -0.4292    0.0341    0
   18    4   -1   -2   -0.4077   -0.3768   -0.4045   -0.3765    0.0032    1
   19    1    1   -1    0.3381   -0.3486    0.3388   -0.3445    0.0042    1

###            No.35                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.1828    0.7434    1.2341   91.1201  112.7200   91.5426      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.1939    0.7478    1.2150   90.0000  112.7883   90.0000      0.0000         0.9826    0.6155
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0077    0.0187    0.0313    0.0000    0.8788    0.0000      0.0000         0.0241    0.0120
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.0716    0.7453   -0.5298)
 a2 = (    1.2608   -0.1382   -0.4518)
 a3 = (   -0.2808   -0.1855   -0.8119)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.1054    0.7310   -0.5291) (    0.0086    0.0087    0.0111)
 a2 = (    1.2519   -0.1437   -0.4479) (    0.0322    0.0113    0.0111)
 a3 = (   -0.3134   -0.2025   -0.8110) (    0.0100    0.0188    0.0168)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -119.9003  137.7930  -29.6197    0.6971    0.8534    0.7644
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0005    0.0008    0.0000      0.0023    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.0661         3.8174
# Chi-squares at the beginning and the end of the refinement
    1.1208    0.0476
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    0    3   -4   -0.3840   -0.0256   -0.3948   -0.0985    0.0737    0
    2    1    0   -1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1    1   -1   -0.4647    0.2011   -0.4653    0.1876    0.0135    1
    4   -2    0    1    0.0121    0.1468    0.0088    0.1499    0.0045    1
    5   -4    2    1   -0.0559    0.0762   -0.0615    0.0665    0.0112    1
    6    1    0   -2   -0.3607   -0.8216   -0.3626   -0.7930    0.0287    1
    7   -2   -3    2    0.1684    0.0580    0.1477    0.0591    0.0207    0
    8    1   -4    1    0.0828   -0.0171    0.0790   -0.0154    0.0041    1
    9   -1   -3   -1    0.7850    0.0332    0.6879   -0.0069    0.1050    0
   10    2   -1   -3    0.2015   -0.7846    0.1845   -0.7818    0.0173    1
   11    3   -1   -2    0.0531   -0.1595    0.0532   -0.1549    0.0045    1
   12    2   -3   -2    0.3914   -0.2649    0.3747   -0.2907    0.0308    0
   13    2    1   -3   -0.2420   -0.2357   -0.2415   -0.2352    0.0006    1
   14    0    1   -1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15   -1   -1    1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -3   -1    2    0.0773    0.1187    0.0758    0.1206    0.0024    1
   17    3   -1   -3    0.0914   -0.4232    0.1219   -0.4292    0.0311    0
   18    2    1   -4   -0.4135   -0.3865   -0.4045   -0.3765    0.0135    1
   19    1   -1   -1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    0    3   -4   -0.3777   -0.0277   -0.3948   -0.0985    0.0728    0
    2    1    0   -1   -0.0646   -0.2869   -0.0649   -0.2885    0.0016    1
    3   -1    1   -1   -0.4601    0.1858   -0.4653    0.1876    0.0055    1
    4   -2    0    1    0.0087    0.1488    0.0088    0.1499    0.0012    1
    5   -4    2    1   -0.0584    0.0765   -0.0615    0.0665    0.0105    1
    6    1    0   -2   -0.3652   -0.7939   -0.3626   -0.7930    0.0028    1
    7   -2   -3    2    0.1667    0.0583    0.1477    0.0591    0.0190    0
    8    1   -4    1    0.0794   -0.0154    0.0790   -0.0154    0.0004    1
    9   -1   -4   -1    0.6819   -0.0061    0.6879   -0.0069    0.0061    1
   10    2   -1   -3    0.1837   -0.7793    0.1845   -0.7818    0.0026    1
   11    3   -1   -2    0.0536   -0.1566    0.0532   -0.1549    0.0018    1
   12    2   -3   -2    0.3872   -0.2659    0.3747   -0.2907    0.0278    0
   13    2    1   -3   -0.2411   -0.2330   -0.2415   -0.2352    0.0023    1
   14    0    1   -1   -0.2322   -0.0079   -0.2334   -0.0072    0.0014    1
   15   -1   -1    1    0.0875    0.0484    0.0894    0.0482    0.0020    1
   16   -3   -1    2    0.0758    0.1206    0.0758    0.1206    0.0000    1
   17    3   -1   -3    0.0892   -0.4195    0.1219   -0.4292    0.0341    0
   18    2    1   -4   -0.4077   -0.3768   -0.4045   -0.3765    0.0032    1
   19    1   -1   -1    0.3381   -0.3486    0.3388   -0.3445    0.0042    1

###            No.40                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.8695    0.7735    1.5089   95.1133   98.3855   90.0349      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.8536    0.7696    1.5408   90.0000   98.8605   90.0000      0.0000         0.5540    0.4995
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0021    0.0135    0.0261    0.0000    0.9042    0.0000      0.0000         0.0097    0.0092
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    1.0417   -0.2860   -0.4296)
 a2 = (    0.3368   -0.5432    1.1298)
 a3 = (   -0.1415   -0.6293   -0.1907)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    1.0571   -0.3045   -0.4425) (    0.0045    0.0111    0.0067)
 a2 = (    0.3597   -0.4462    1.1662) (    0.0126    0.0103    0.0194)
 a3 = (   -0.1426   -0.6123   -0.1903) (    0.0064    0.0108    0.0054)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -22.5785  103.5933  -21.6522    0.3495    0.3844    0.5562
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0011    0.0058    0.0000      0.0023    0.0024    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         3.3092         3.7196
# Chi-squares at the beginning and the end of the refinement
   10.8213    0.2224
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    3    2   -5   -0.3987   -0.1064   -0.3948   -0.0985    0.0087    1
    2    0    0   -1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    3    3   -1   -0.4507    0.1958   -0.4653    0.1876    0.0168    1
    4    0    1    4    0.0089    0.1192    0.0088    0.1499    0.0307    0
    5    3    2    3   -0.0516    0.0586   -0.0615    0.0665    0.0127    1
    6    0    1   -4   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7   -4    0    5    0.1342    0.0552    0.1477    0.0591    0.0140    1
    8   -4   -1    1    0.0814   -0.0185    0.0790   -0.0154    0.0040    1
    9   -4    1    1    0.6691    0.0048    0.6879   -0.0069    0.0222    1
   10   -2    1   -6    0.1841   -0.7801    0.1845   -0.7818    0.0018    1
   11   -2   -1   -6    0.0520   -0.1619    0.0532   -0.1549    0.0071    1
   12   -3    0   -2    0.3780   -0.2815    0.3747   -0.2907    0.0098    1
   13    2    1   -6   -0.2604   -0.2119   -0.2415   -0.2352    0.0300    0
   14    2    1   -2   -0.2405   -0.0128   -0.2334   -0.0072    0.0091    1
   15   -2    0    3    0.0897    0.0471    0.0894    0.0482    0.0012    1
   16   -1    1    5    0.0630    0.1518    0.0758    0.1206    0.0338    0
   17   -1    0   -3    0.1211   -0.4264    0.1219   -0.4292    0.0029    1
   18    1    1   -4   -0.4291   -0.3725   -0.4045   -0.3765    0.0249    0
   19   -1    0   -1    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    3    2   -5   -0.3967   -0.1021   -0.3948   -0.0985    0.0040    1
    2    0    0   -1   -0.0697   -0.2890   -0.0649   -0.2885    0.0049    1
    3    3    3   -1   -0.4729    0.1819   -0.4653    0.1876    0.0095    1
    4    0    1    4    0.0090    0.1450    0.0088    0.1499    0.0050    1
    5    3    2    3   -0.0606    0.0684   -0.0615    0.0665    0.0021    1
    6    0    1   -4   -0.3686   -0.7858   -0.3626   -0.7930    0.0093    1
    7   -4    0    5    0.1443    0.0601    0.1477    0.0591    0.0035    1
    8   -4   -1    1    0.0822   -0.0127    0.0790   -0.0154    0.0042    1
    9   -4    1    1    0.6824   -0.0214    0.6879   -0.0069    0.0154    1
   10   -2    1   -6    0.1838   -0.7831    0.1845   -0.7818    0.0014    1
   11   -2   -1   -6    0.0547   -0.1571    0.0532   -0.1549    0.0026    1
   12   -4    0   -3    0.3731   -0.2950    0.3747   -0.2907    0.0045    1
   13    2    1   -6   -0.2651   -0.2019   -0.2415   -0.2352    0.0408    0
   14    2    1   -2   -0.2401   -0.0089   -0.2334   -0.0072    0.0069    1
   15   -2    0    3    0.0991    0.0542    0.0894    0.0482    0.0114    1
   16   -1    1    6    0.0417    0.1108    0.0758    0.1206    0.0355    0
   17   -1    0   -3    0.1269   -0.4298    0.1219   -0.4292    0.0051    1
   18    1    1   -4   -0.4329   -0.3633   -0.4045   -0.3765    0.0313    0
   19   -1    0   -1    0.3440   -0.3402    0.3388   -0.3445    0.0068    1

###            No.41                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.0216    0.9803    1.0938   89.6000  113.5678   94.8670      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.0308    0.9534    1.0730   90.0000  108.4950   90.0000      0.0000         0.9607    0.8885
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0055    0.0176    0.0205    0.0000    0.9172    0.0000      0.0000         0.0180    0.0184
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.2252   -1.0018   -0.3087)
 a2 = (    0.2680   -0.4324    0.8890)
 a3 = (   -0.9418   -0.2732    0.1850)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.2136   -0.9586   -0.2860) (    0.0096    0.0025    0.0053)
 a2 = (    0.2941   -0.3475    0.9450) (    0.0105    0.0077    0.0172)
 a3 = (   -0.9383   -0.1898    0.2222) (    0.0188    0.0118    0.0072)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -17.2400   70.6160  -96.6827    0.3216    0.3986    0.5804
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0011   -0.0046    0.0000      0.0023    0.0024    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.1886         3.4806
# Chi-squares at the beginning and the end of the refinement
    3.5210    0.2466
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1    2   -3   -0.3987   -0.1064   -0.3948   -0.0985    0.0087    1
    2   -1    0    0   -0.0660   -0.2934   -0.0649   -0.2885    0.0050    1
    3    1    3   -3   -0.4456    0.1936   -0.4653    0.1876    0.0207    1
    4    4    2    1    0.0338    0.1329    0.0088    0.1499    0.0302    0
    5    3    2   -3   -0.0482    0.0548   -0.0615    0.0665    0.0177    0
    6   -2    1    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    0    0    1    0.1812    0.0526    0.1477    0.0591    0.0341    0
    8   -1   -1    5    0.0725   -0.0010    0.0790   -0.0154    0.0158    1
    9   -2    1    5    0.6077   -0.0312    0.6879   -0.0069    0.0838    0
   10   -4    1    2    0.1841   -0.7801    0.1845   -0.7818    0.0018    1
   11   -4   -1    2    0.0536   -0.1667    0.0532   -0.1549    0.0118    1
   12   -4    0    5    0.3830   -0.2656    0.3747   -0.2907    0.0265    0
   13   -3    1   -2   -0.2305   -0.2544   -0.2415   -0.2352    0.0221    0
   14    0    1   -2   -0.2405   -0.0128   -0.2334   -0.0072    0.0091    1
   15    1    0    4    0.0847    0.0444    0.0894    0.0482    0.0061    1
   16    2    1    1    0.0596    0.1437    0.0758    0.1206    0.0283    0
   17   -2    0    1    0.1219   -0.4292    0.1219   -0.4292    0.0000    1
   18   -3    2   -2   -0.4300   -0.3733   -0.4045   -0.3765    0.0257    0
   19   -1    0    1    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1    2   -3   -0.3974   -0.0959   -0.3948   -0.0985    0.0037    1
    2   -1    0    0   -0.0644   -0.2888   -0.0649   -0.2885    0.0006    1
    3    1    3   -3   -0.4634    0.1854   -0.4653    0.1876    0.0030    1
    4    2    1    0    0.0086    0.1595    0.0088    0.1499    0.0096    1
    5    3    2   -3   -0.0618    0.0613   -0.0615    0.0665    0.0052    1
    6   -2    1    0   -0.3677   -0.8025   -0.3626   -0.7930    0.0108    1
    7    1    0    5    0.1450    0.0522    0.1477    0.0591    0.0074    1
    8   -1   -1    5    0.0931   -0.0117    0.0790   -0.0154    0.0145    1
    9   -1    1    4    0.6507    0.0251    0.6879   -0.0069    0.0492    0
   10   -4    1    2    0.1800   -0.7775    0.1845   -0.7818    0.0063    1
   11   -4   -1    2    0.0512   -0.1557    0.0532   -0.1549    0.0021    1
   12   -4    0    5    0.3743   -0.2869    0.3747   -0.2907    0.0039    1
   13   -3    1   -2   -0.2345   -0.2461   -0.2415   -0.2352    0.0129    1
   14    0    1   -2   -0.2317   -0.0081   -0.2334   -0.0072    0.0019    1
   15    1    0    3    0.0991    0.0459    0.0894    0.0482    0.0099    1
   16    3    1    2    0.0648    0.1022    0.0758    0.1206    0.0214    0
   17   -2    0    1    0.1240   -0.4274    0.1219   -0.4292    0.0028    1
   18   -3    2   -2   -0.4426   -0.3687   -0.4045   -0.3765    0.0389    0
   19   -1    0    1    0.3289   -0.3546    0.3388   -0.3445    0.0142    1

###            No.42                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.7590    0.8633    1.5285   88.8526   91.4240   92.5535      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.7474    0.8730    1.5328   90.0000   88.8884   90.0000      0.0000         0.4876    0.5696
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0004    0.0156    0.0270    0.0000    1.4465    0.0000      0.0000         0.0086    0.0102
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.2775    1.2343    0.3741)
 a2 = (   -1.0775    0.1788    0.3898)
 a3 = (    0.1929   -0.2056    0.5907)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.2907    1.2523    0.3715) (    0.0088    0.0035    0.0077)
 a2 = (   -1.0695    0.1332    0.3880) (    0.0196    0.0085    0.0079)
 a3 = (    0.1830   -0.2290    0.5830) (    0.0064    0.0135    0.0111)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   39.3428   25.9736   40.5423    0.7710    0.3294    0.9396
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0015    0.0019    0.0000      0.0022    0.0026    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.8857         3.3833
# Chi-squares at the beginning and the end of the refinement
    1.2716    0.3799
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -3    4   -0.4020   -0.0979   -0.3948   -0.0985    0.0073    1
    2    1    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0   -1    2   -0.4653    0.1876   -0.4653    0.1876    0.0000    1
    4   -1    0    1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5   -2   -3    4   -0.0579    0.0642   -0.0615    0.0665    0.0044    1
    6    1    0    1   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7   -1    2    0    0.1475    0.0532    0.1477    0.0591    0.0059    1
    8    0    2   -1    0.0761   -0.0182    0.0790   -0.0154    0.0041    1
    9    0    2    1    0.6942   -0.0537    0.6879   -0.0069    0.0472    0
   10    3    2    2    0.2035   -0.7927    0.1845   -0.7818    0.0218    1
   11    3    2   -2    0.0537   -0.1406    0.0532   -0.1549    0.0144    1
   12    1    2    0    0.3575   -0.3031    0.3747   -0.2907    0.0212    1
   13    3   -2    2   -0.2572   -0.2237   -0.2415   -0.2352    0.0194    1
   14    1   -3    3   -0.2388   -0.0047   -0.2334   -0.0072    0.0060    1
   15   -2    3    0    0.0882    0.0450    0.0894    0.0482    0.0034    1
   16   -3    2    2    0.1045    0.1509    0.0758    0.1206    0.0417    0
   17    3    2    0    0.1379   -0.4234    0.1219   -0.4292    0.0170    1
   18    2   -1    2   -0.4087   -0.3805   -0.4045   -0.3765    0.0058    1
   19    2    3    0    0.3170   -0.3557    0.3388   -0.3445    0.0246    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -3    4   -0.3968   -0.1021   -0.3948   -0.0985    0.0041    1
    2    1    0    0   -0.0669   -0.2797   -0.0649   -0.2885    0.0091    1
    3    0   -1    2   -0.4649    0.1927   -0.4653    0.1876    0.0051    1
    4   -1    0    1    0.0088    0.1439    0.0088    0.1499    0.0061    1
    5   -2   -3    4   -0.0567    0.0646   -0.0615    0.0665    0.0052    1
    6    1    0    1   -0.3571   -0.7663   -0.3626   -0.7930    0.0272    1
    7   -1    2    0    0.1414    0.0599    0.1477    0.0591    0.0063    1
    8    0    2   -1    0.0780   -0.0151    0.0790   -0.0154    0.0011    1
    9    0    2    1    0.6930   -0.0114    0.6879   -0.0069    0.0067    1
   10    3    2    2    0.2021   -0.8040    0.1845   -0.7818    0.0283    1
   11    3    2   -2    0.0505   -0.1409    0.0532   -0.1549    0.0143    1
   12    1    2    0    0.3691   -0.3027    0.3747   -0.2907    0.0132    1
   13    3   -2    2   -0.2482   -0.2196   -0.2415   -0.2352    0.0170    1
   14    1   -3    3   -0.2374   -0.0078   -0.2334   -0.0072    0.0041    1
   15   -2    3    0    0.0833    0.0490    0.0894    0.0482    0.0061    1
   16   -3    2    2    0.0954    0.1465    0.0758    0.1206    0.0324    0
   17    3    2    0    0.1331   -0.4257    0.1219   -0.4292    0.0118    1
   18    2   -1    2   -0.3984   -0.3747   -0.4045   -0.3765    0.0063    1
   19    2    3    0    0.3252   -0.3593    0.3388   -0.3445    0.0201    1

###            No.43                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.7590    1.5285    0.8633   88.8526   92.5535   91.4240      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.7484    1.5351    0.8704   90.0000   89.9703   90.0000      0.0000         0.8599    1.7637
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0271    0.0149    0.0000    0.8220    0.0000      0.0000         0.0147    0.0303
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.2775   -1.2343   -0.3741)
 a2 = (   -0.1929    0.2056   -0.5907)
 a3 = (    1.0775   -0.1788   -0.3898)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.2936   -1.2486   -0.3742) (    0.0120    0.0032    0.0066)
 a2 = (   -0.1847    0.2188   -0.5851) (    0.0059    0.0045    0.0103)
 a3 = (    1.0726   -0.1350   -0.3891) (    0.0194    0.0109    0.0077)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -162.6830  109.8038   82.7963    0.3073    0.3404    0.5539
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0016    0.0027    0.0000      0.0022    0.0024    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.8857         3.3208
# Chi-squares at the beginning and the end of the refinement
    1.0599    0.4006
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -4    3   -0.4020   -0.0979   -0.3948   -0.0985    0.0073    1
    2   -1    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0   -2    1   -0.4653    0.1876   -0.4653    0.1876    0.0000    1
    4    1   -1    0    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5    2   -4    3   -0.0579    0.0642   -0.0615    0.0665    0.0044    1
    6   -1   -1    0   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7    1    0   -2    0.1475    0.0532    0.1477    0.0591    0.0059    1
    8    0    1   -2    0.0761   -0.0182    0.0790   -0.0154    0.0041    1
    9    0   -1   -2    0.6942   -0.0537    0.6879   -0.0069    0.0472    0
   10   -3   -2   -2    0.2035   -0.7927    0.1845   -0.7818    0.0218    1
   11   -3    2   -2    0.0537   -0.1406    0.0532   -0.1549    0.0144    1
   12   -1    0   -2    0.3575   -0.3031    0.3747   -0.2907    0.0212    1
   13   -3   -2    2   -0.2572   -0.2237   -0.2415   -0.2352    0.0194    1
   14   -1   -3    3   -0.2388   -0.0047   -0.2334   -0.0072    0.0060    1
   15    2    0   -3    0.0882    0.0450    0.0894    0.0482    0.0034    1
   16    3   -2   -2    0.1045    0.1509    0.0758    0.1206    0.0417    0
   17   -3    0   -2    0.1379   -0.4234    0.1219   -0.4292    0.0170    1
   18   -2   -2    1   -0.4087   -0.3805   -0.4045   -0.3765    0.0058    1
   19   -2    0   -3    0.3170   -0.3557    0.3388   -0.3445    0.0246    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -4    3   -0.3962   -0.1030   -0.3948   -0.0985    0.0047    1
    2   -1    0    0   -0.0684   -0.2813   -0.0649   -0.2885    0.0080    1
    3    0   -2    1   -0.4695    0.1885   -0.4653    0.1876    0.0043    1
    4    1   -1    0    0.0090    0.1457    0.0088    0.1499    0.0043    1
    5    2   -4    3   -0.0575    0.0653   -0.0615    0.0665    0.0042    1
    6   -1   -1    0   -0.3575   -0.7635   -0.3626   -0.7930    0.0299    1
    7    1    0   -2    0.1411    0.0600    0.1477    0.0591    0.0067    1
    8    0    1   -2    0.0778   -0.0140    0.0790   -0.0154    0.0019    1
    9    0   -1   -2    0.6933   -0.0154    0.6879   -0.0069    0.0101    1
   10   -3   -2   -2    0.2004   -0.8051    0.1845   -0.7818    0.0281    1
   11   -3    2   -2    0.0514   -0.1419    0.0532   -0.1549    0.0132    1
   12   -1    0   -2    0.3705   -0.3025    0.3747   -0.2907    0.0125    1
   13   -3   -2    2   -0.2493   -0.2190   -0.2415   -0.2352    0.0181    1
   14   -1   -3    3   -0.2378   -0.0082   -0.2334   -0.0072    0.0045    1
   15    2    0   -3    0.0829    0.0492    0.0894    0.0482    0.0066    1
   16    3   -2   -2    0.0965    0.1472    0.0758    0.1206    0.0337    0
   17   -3    0   -2    0.1340   -0.4279    0.1219   -0.4292    0.0122    1
   18   -2   -2    1   -0.3984   -0.3736   -0.4045   -0.3765    0.0067    1
   19   -2    0   -3    0.3269   -0.3597    0.3388   -0.3445    0.0193    1

###            No.44                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.8633    0.7590    1.5285   88.5760   91.1474   92.5535      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.8729    0.7489    1.5298   90.0000   90.6335   90.0000      0.0000         0.5706    0.4895
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0003    0.0132    0.0342    0.0000    1.5010    0.0000      0.0000         0.0129    0.0098
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -1.0775    0.1788    0.3898)
 a2 = (    0.2775    1.2343    0.3741)
 a3 = (   -0.1929    0.2056   -0.5907)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -1.0700    0.1346    0.3866) (    0.0025    0.0072    0.0070)
 a2 = (    0.2922    1.2482    0.3740) (    0.0089    0.0221    0.0100)
 a3 = (   -0.1914    0.2201   -0.5850) (    0.0183    0.0066    0.0100)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   50.3129  153.9882 -139.8901    0.7406    0.3366    0.8260
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0009    0.0025    0.0000      0.0027    0.0024    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.8857         3.2859
# Chi-squares at the beginning and the end of the refinement
    1.4718    0.3943
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3    2   -4   -0.4020   -0.0979   -0.3948   -0.0985    0.0073    1
    2    0    1    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1    0   -2   -0.4653    0.1876   -0.4653    0.1876    0.0000    1
    4    0   -1   -1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5   -3   -2   -4   -0.0579    0.0642   -0.0615    0.0665    0.0044    1
    6    0    1   -1   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7    2   -1    0    0.1475    0.0532    0.1477    0.0591    0.0059    1
    8    2    0    1    0.0761   -0.0182    0.0790   -0.0154    0.0041    1
    9    2    0   -1    0.6942   -0.0537    0.6879   -0.0069    0.0472    0
   10    2    3   -2    0.2035   -0.7927    0.1845   -0.7818    0.0218    1
   11    2    3    2    0.0537   -0.1406    0.0532   -0.1549    0.0144    1
   12    2    1    0    0.3575   -0.3031    0.3747   -0.2907    0.0212    1
   13   -2    3   -2   -0.2572   -0.2237   -0.2415   -0.2352    0.0194    1
   14   -3    1   -3   -0.2388   -0.0047   -0.2334   -0.0072    0.0060    1
   15    3   -2    0    0.0882    0.0450    0.0894    0.0482    0.0034    1
   16    2   -3   -2    0.1045    0.1509    0.0758    0.1206    0.0417    0
   17    2    3    0    0.1379   -0.4234    0.1219   -0.4292    0.0170    1
   18   -1    2   -2   -0.4087   -0.3805   -0.4045   -0.3765    0.0058    1
   19    3    2    0    0.3170   -0.3557    0.3388   -0.3445    0.0246    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3    2   -4   -0.3958   -0.1025   -0.3948   -0.0985    0.0041    1
    2    0    1    0   -0.0674   -0.2816   -0.0649   -0.2885    0.0074    1
    3   -1    0   -2   -0.4671    0.1869   -0.4653    0.1876    0.0019    1
    4    0   -1   -1    0.0089    0.1455    0.0088    0.1499    0.0044    1
    5   -3   -2   -4   -0.0577    0.0658   -0.0615    0.0665    0.0039    1
    6    0    1   -1   -0.3602   -0.7613   -0.3626   -0.7930    0.0318    1
    7    2   -1    0    0.1404    0.0593    0.1477    0.0591    0.0073    1
    8    2    0    1    0.0764   -0.0138    0.0790   -0.0154    0.0031    1
    9    2    0   -1    0.6957   -0.0151    0.6879   -0.0069    0.0113    1
   10    2    3   -2    0.1983   -0.8062    0.1845   -0.7818    0.0280    1
   11    2    3    2    0.0520   -0.1408    0.0532   -0.1549    0.0142    1
   12    2    1    0    0.3699   -0.3020    0.3747   -0.2907    0.0123    1
   13   -2    3   -2   -0.2495   -0.2195   -0.2415   -0.2352    0.0177    1
   14   -3    1   -3   -0.2382   -0.0082   -0.2334   -0.0072    0.0049    1
   15    3   -2    0    0.0823    0.0484    0.0894    0.0482    0.0071    1
   16    2   -3   -2    0.0962    0.1469    0.0758    0.1206    0.0333    0
   17    2    3    0    0.1343   -0.4271    0.1219   -0.4292    0.0126    1
   18   -1    2   -2   -0.3987   -0.3727   -0.4045   -0.3765    0.0069    1
   19    3    2    0    0.3264   -0.3591    0.3388   -0.3445    0.0192    1

###            No.45                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.9604    0.7471    1.4700   89.2808  108.4896   91.2405      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.9486    0.7546    1.4762   90.0000  108.8628   90.0000      0.0000         0.6426    0.5112
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0062    0.0158    0.0363    0.0000    1.0912    0.0000      0.0000         0.0165    0.0132
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.3759   -0.1062   -1.0263)
 a2 = (   -1.2638    0.1283    0.4230)
 a3 = (   -0.0297    0.6510   -0.2998)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.3859   -0.1195   -1.0382) (    0.0065    0.0226    0.0040)
 a2 = (   -1.2405    0.1390    0.4450) (    0.0275    0.0114    0.0081)
 a3 = (   -0.0383    0.6449   -0.3083) (    0.0067    0.0200    0.0056)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -70.1832   97.8606  176.4273    0.3558    1.1296    0.5804
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0004    0.0004    0.0000      0.0024    0.0030    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.8907         3.2834
# Chi-squares at the beginning and the end of the refinement
    0.3993    0.1605
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3   -2    2   -0.3971   -0.1506   -0.3948   -0.0985    0.0521    0
    2   -1    0    2   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1   -1   -1   -0.4653    0.1876   -0.4653    0.1876    0.0000    1
    4    1    0   -5    0.0095    0.1400    0.0088    0.1499    0.0100    1
    5    0   -1   -2   -0.0615    0.0665   -0.0615    0.0665    0.0000    1
    6   -1    0    1   -0.3629   -0.7936   -0.3626   -0.7930    0.0006    1
    7    1    2   -2    0.1266    0.0513    0.1477    0.0591    0.0225    0
    8    1    4    1    0.0646   -0.0125    0.0790   -0.0154    0.0148    1
    9   -1    4   -1    0.6490    0.0044    0.6879   -0.0069    0.0405    0
   10   -4    2    5    0.2399   -0.8056    0.1845   -0.7818    0.0603    0
   11   -2    1    6    0.0252   -0.1553    0.0532   -0.1549    0.0279    0
   12   -1    2    2    0.3673   -0.2766    0.3747   -0.2907    0.0160    1
   13   -4   -2    5   -0.2551   -0.2249   -0.2415   -0.2352    0.0171    1
   14   -2   -3   -1   -0.2295    0.0413   -0.2334   -0.0072    0.0486    0
   15    2    3   -4    0.0721    0.0396    0.0894    0.0482    0.0194    0
   16    1    1   -3    0.0748    0.0932    0.0758    0.1206    0.0274    0
   17   -3    2    6    0.1486   -0.4221    0.1219   -0.4292    0.0277    0
   18   -3   -1    3   -0.4087   -0.3805   -0.4045   -0.3765    0.0058    1
   19   -2    3    4    0.3315   -0.3360    0.3388   -0.3445    0.0112    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -4   -3    2   -0.3977   -0.1030   -0.3948   -0.0985    0.0053    1
    2   -1    0    2   -0.0630   -0.2849   -0.0649   -0.2885    0.0040    1
    3   -1   -1   -1   -0.4675    0.1868   -0.4653    0.1876    0.0023    1
    4    1    0   -5    0.0083    0.1505    0.0088    0.1499    0.0007    1
    5    0   -1   -2   -0.0602    0.0653   -0.0615    0.0665    0.0018    1
    6   -1    0    1   -0.3601   -0.7908   -0.3626   -0.7930    0.0033    1
    7    1    2   -2    0.1438    0.0589    0.1477    0.0591    0.0039    1
    8    1    4    1    0.0770   -0.0151    0.0790   -0.0154    0.0020    1
    9   -1    4   -1    0.6886   -0.0042    0.6879   -0.0069    0.0028    1
   10   -4    2    5    0.2305   -0.8136    0.1845   -0.7818    0.0559    0
   11   -2    1    6    0.0249   -0.1535    0.0532   -0.1549    0.0283    0
   12   -1    2    2    0.3762   -0.2922    0.3747   -0.2907    0.0021    1
   13   -4   -2    5   -0.2501   -0.2227   -0.2415   -0.2352    0.0152    1
   14   -2   -3   -1   -0.2246    0.0411   -0.2334   -0.0072    0.0491    0
   15    2    3   -4    0.0864    0.0485    0.0894    0.0482    0.0030    1
   16    1    1   -3    0.0839    0.1072    0.0758    0.1206    0.0156    1
   17   -3    2    6    0.1469   -0.4270    0.1219   -0.4292    0.0252    0
   18   -3   -1    3   -0.4046   -0.3810   -0.4045   -0.3765    0.0045    1
   19   -2    3    4    0.3359   -0.3502    0.3388   -0.3445    0.0065    1

###            No.47                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.9376    0.7478    1.4364   95.1032   94.2044   91.3062      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.9505    0.7655    1.3756   90.0000   92.4617   90.0000      0.0000         0.6910    0.5565
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0009    0.0148    0.0240    0.0000    1.2010    0.0000      0.0000         0.0121    0.0106
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.7208    0.7875    0.0701)
 a2 = (   -0.4281    0.5479   -1.1492)
 a3 = (   -0.4426    0.4500    0.3050)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.7361    0.7511    0.0547) (    0.0098    0.0095    0.0062)
 a2 = (   -0.3638    0.4421   -1.1742) (    0.0145    0.0100    0.0222)
 a3 = (   -0.4570    0.4685    0.3180) (    0.0097    0.0121    0.0057)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  176.6906   64.2020 -132.9829    0.3735    0.4003    0.8127
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0004    0.0042    0.0000      0.0023    0.0025    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.1601         3.2497
# Chi-squares at the beginning and the end of the refinement
   11.3730    0.1294
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -1   -1   -0.4008   -0.1000   -0.3948   -0.0985    0.0062    1
    2    1    0    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    2   -3   -4   -0.4491    0.1866   -0.4653    0.1876    0.0163    1
    4   -2   -1   -2    0.0056    0.1318    0.0088    0.1499    0.0184    0
    5    0   -1   -3   -0.0615    0.0665   -0.0615    0.0665    0.0000    1
    6    2   -1    2   -0.3993   -0.7816   -0.3626   -0.7930    0.0384    0
    7   -4    0    3    0.1274    0.0545    0.1477    0.0591    0.0208    0
    8   -3    1    6    0.0872   -0.0147    0.0790   -0.0154    0.0082    1
    9   -3   -1    6    0.6293    0.0302    0.6879   -0.0069    0.0694    0
   10    2   -1    6    0.1689   -0.8013    0.1845   -0.7818    0.0249    1
   11    2    1    6    0.0519   -0.1525    0.0532   -0.1549    0.0027    1
   12    0    0    1    0.3388   -0.3445    0.3747   -0.2907    0.0646    0
   13    5   -1    1   -0.2345   -0.2508   -0.2415   -0.2352    0.0171    1
   14    2   -1   -2   -0.2461   -0.0114   -0.2334   -0.0072    0.0134    1
   15   -5    0    3    0.0897    0.0471    0.0894    0.0482    0.0012    1
   16   -5   -1    0    0.0840    0.1186    0.0758    0.1206    0.0084    1
   17    1    0    3    0.1211   -0.4264    0.1219   -0.4292    0.0029    1
   18    3   -1    1   -0.3670   -0.3869   -0.4045   -0.3765    0.0389    0
   19    0    0    1    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -1   -1   -0.3953   -0.0977   -0.3948   -0.0985    0.0010    1
    2    1    0    1   -0.0669   -0.2862   -0.0649   -0.2885    0.0030    1
    3    2   -3   -4   -0.4679    0.1850   -0.4653    0.1876    0.0037    1
    4   -2   -1   -2    0.0096    0.1523    0.0088    0.1499    0.0025    1
    5    0   -1   -3   -0.0599    0.0675   -0.0615    0.0665    0.0019    1
    6    2   -1    2   -0.3662   -0.7881   -0.3626   -0.7930    0.0060    1
    7   -4    0    3    0.1494    0.0597    0.1477    0.0591    0.0018    1
    8   -2    1    5    0.0674   -0.0169    0.0790   -0.0154    0.0118    1
    9   -3   -1    6    0.6354   -0.0119    0.6879   -0.0069    0.0527    0
   10    2   -1    6    0.1825   -0.7775    0.1845   -0.7818    0.0048    1
   11    2    1    6    0.0541   -0.1545    0.0532   -0.1549    0.0010    1
   12    0    0    1    0.3389   -0.3437    0.3747   -0.2907    0.0639    0
   13    5   -1    1   -0.2335   -0.2416   -0.2415   -0.2352    0.0102    1
   14    2   -1   -2   -0.2354   -0.0063   -0.2334   -0.0072    0.0022    1
   15   -2    0    1    0.0836    0.0492    0.0894    0.0482    0.0059    1
   16   -4   -1   -1    0.0678    0.1299    0.0758    0.1206    0.0123    1
   17    1    0    3    0.1263   -0.4263    0.1219   -0.4292    0.0053    1
   18    3   -1    1   -0.3627   -0.3863   -0.4045   -0.3765    0.0429    0
   19    0    0    1    0.3389   -0.3437    0.3388   -0.3445    0.0008    1

###            No.48                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.9718    1.0859    1.0541   86.6395  115.7051   93.2294      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.9655    1.0798    1.0817   90.0000  117.5328   90.0000      0.0000         0.8926    0.9982
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0139    0.0332    0.0311    0.0000    1.5796    0.0000      0.0000         0.0184    0.0211
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.0661   -1.1255    0.1862)
 a2 = (    0.8422   -0.1397   -0.3509)
 a3 = (    0.3016   -0.3214    0.9571)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.0710   -1.1526    0.1754) (    0.0126    0.0019    0.0122)
 a2 = (    0.8669   -0.1006   -0.3099) (    0.0273    0.0107    0.0090)
 a3 = (    0.2911   -0.3644    0.9324) (    0.0131    0.0227    0.0254)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  155.8382   21.5177  109.1265    1.4952    0.4920    1.5794
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0005    0.0010    0.0000      0.0025    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.4354         3.2166
# Chi-squares at the beginning and the end of the refinement
    5.7804    0.0169
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    3    3   -0.3831   -0.0933   -0.3948   -0.0985    0.0128    1
    2   -2    0    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0    1    1   -0.4559    0.1838   -0.4653    0.1876    0.0102    1
    4    1    0    0    0.0097    0.1648    0.0088    0.1499    0.0149    1
    5    3    3    1   -0.0510    0.0798   -0.0615    0.0665    0.0170    1
    6   -1    0    1   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    2   -3   -1    0.1254    0.0640    0.1477    0.0591    0.0228    0
    8   -1   -4   -1    0.0552   -0.0307    0.0790   -0.0154    0.0284    0
    9    0   -5    1    0.6872   -0.0663    0.6879   -0.0069    0.0594    0
   10   -4   -3    3    0.2466   -0.7189    0.1845   -0.7818    0.0884    0
   11   -4   -2    1    0.0484   -0.1929    0.0532   -0.1549    0.0382    0
   12   -2   -5    1    0.4173   -0.2904    0.3747   -0.2907    0.0426    0
   13   -4    2    3   -0.2167   -0.2475   -0.2415   -0.2352    0.0277    0
   14   -1    3    2   -0.2112   -0.0042   -0.2334   -0.0072    0.0223    0
   15    3   -5   -2    0.0683    0.0277    0.0894    0.0482    0.0294    0
   16    4   -2   -1    0.0543    0.0941    0.0758    0.1206    0.0341    0
   17   -2   -1    1    0.0859   -0.4352    0.1219   -0.4292    0.0365    0
   18   -2    1    2   -0.4045   -0.3765   -0.4045   -0.3765    0.0000    1
   19   -2   -3    1    0.3463   -0.3886    0.3388   -0.3445    0.0448    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    3    3   -0.3949   -0.0983   -0.3948   -0.0985    0.0003    1
    2   -2    0    1   -0.0642   -0.2845   -0.0649   -0.2885    0.0040    1
    3    0    1    1   -0.4634    0.1869   -0.4653    0.1876    0.0021    1
    4    1    0    0    0.0089    0.1526    0.0088    0.1499    0.0026    1
    5    2    3    1   -0.0598    0.0650   -0.0615    0.0665    0.0023    1
    6   -1    0    1   -0.3649   -0.7921   -0.3626   -0.7930    0.0024    1
    7    2   -4   -1    0.1455    0.0586    0.1477    0.0591    0.0022    1
    8    0   -4   -1    0.0780   -0.0150    0.0790   -0.0154    0.0011    1
    9    0   -4    1    0.6832   -0.0072    0.6879   -0.0069    0.0047    1
   10   -4   -2    3    0.1101   -0.7122    0.1845   -0.7818    0.1019    0
   11   -4   -2    1    0.0462   -0.1782    0.0532   -0.1549    0.0243    0
   12   -2   -4    1    0.3756   -0.2894    0.3747   -0.2907    0.0016    1
   13   -4    2    3   -0.2210   -0.2519   -0.2415   -0.2352    0.0264    0
   14   -1    3    2   -0.2336   -0.0077   -0.2334   -0.0072    0.0006    1
   15    2   -3   -1    0.0883    0.0490    0.0894    0.0482    0.0013    1
   16    4   -3   -1    0.0861    0.1085    0.0758    0.1206    0.0159    1
   17   -2   -1    1    0.0883   -0.4169    0.1219   -0.4292    0.0357    0
   18   -2    1    2   -0.4073   -0.3763   -0.4045   -0.3765    0.0028    1
   19   -2   -3    1    0.3363   -0.3475    0.3388   -0.3445    0.0039    1

###            No.49                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.6034    1.3661    1.2149   89.5668   91.3937   92.7483      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.6078    1.3600    1.2099   90.0000   89.1254   90.0000      0.0000         0.5024    1.1240
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0003    0.0356    0.0236    0.0000    1.8790    0.0000      0.0000         0.0098    0.0284
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.3491    1.5527    0.4706)
 a2 = (   -0.6777    0.1124    0.2553)
 a3 = (    0.2427   -0.2586    0.7431)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.3471    1.5405    0.4626) (    0.0170    0.0058    0.0131)
 a2 = (   -0.6882    0.0813    0.2458) (    0.0193    0.0080    0.0057)
 a3 = (    0.2303   -0.2876    0.7400) (    0.0098    0.0218    0.0150)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   40.0609   25.8984   40.1969    1.0114    0.5102    1.1885
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0002    0.0008    0.0000      0.0026    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.8731         3.1630
# Chi-squares at the beginning and the end of the refinement
    0.4436    0.0679
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    1   -3    2   -0.3921   -0.0954   -0.3948   -0.0985    0.0041    1
    2    1    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0   -1    1   -0.4559    0.1838   -0.4653    0.1876    0.0102    1
    4   -1    0    1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5   -1   -3    2   -0.0516    0.0573   -0.0615    0.0665    0.0136    1
    6    1    0    1   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7   -1    4    0    0.1592    0.0574    0.1477    0.0591    0.0117    1
    8    0    4   -1    0.0890   -0.0213    0.0790   -0.0154    0.0116    1
    9    0    4    1    0.7105   -0.0550    0.6879   -0.0069    0.0531    0
   10    2    3    1    0.2362   -0.6884    0.1845   -0.7818    0.1067    0
   11    2    2   -1    0.0466   -0.1858    0.0532   -0.1549    0.0315    0
   12    1    4    0    0.3674   -0.3115    0.3747   -0.2907    0.0220    1
   13    2   -2    1   -0.2219   -0.2533   -0.2415   -0.2352    0.0267    0
   14    1   -6    3   -0.2270   -0.0045   -0.2334   -0.0072    0.0069    1
   15   -1    3    0    0.0983    0.0502    0.0894    0.0482    0.0091    1
   16   -3    3    2    0.0723    0.1349    0.0758    0.1206    0.0147    1
   17    1    1    0    0.0828   -0.4196    0.1219   -0.4292    0.0402    0
   18    1   -1    1   -0.4045   -0.3765   -0.4045   -0.3765    0.0000    1
   19    1    3    0    0.3249   -0.3646    0.3388   -0.3445    0.0245    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    1   -3    2   -0.3949   -0.0984   -0.3948   -0.0985    0.0002    1
    2    1    0    0   -0.0646   -0.2850   -0.0649   -0.2885    0.0035    1
    3    0   -1    1   -0.4635    0.1868   -0.4653    0.1876    0.0020    1
    4   -1    0    1    0.0094    0.1519    0.0088    0.1499    0.0021    1
    5   -1   -3    2   -0.0594    0.0648   -0.0615    0.0665    0.0028    1
    6    1    0    1   -0.3651   -0.7909   -0.3626   -0.7930    0.0032    1
    7   -1    4    0    0.1453    0.0579    0.1477    0.0591    0.0027    1
    8    0    4   -1    0.0780   -0.0153    0.0790   -0.0154    0.0010    1
    9    0    4    1    0.6827   -0.0094    0.6879   -0.0069    0.0057    1
   10    2    2    1    0.1088   -0.7122    0.1845   -0.7818    0.1029    0
   11    2    2   -1    0.0462   -0.1789    0.0532   -0.1549    0.0249    0
   12    1    4    0    0.3751   -0.2902    0.3747   -0.2907    0.0006    1
   13    2   -2    1   -0.2213   -0.2519   -0.2415   -0.2352    0.0263    0
   14    1   -6    3   -0.2336   -0.0078   -0.2334   -0.0072    0.0007    1
   15   -1    3    0    0.0882    0.0483    0.0894    0.0482    0.0013    1
   16   -2    3    1    0.0862    0.1076    0.0758    0.1206    0.0166    1
   17    1    1    0    0.0877   -0.4175    0.1219   -0.4292    0.0361    0
   18    1   -1    1   -0.4073   -0.3761   -0.4045   -0.3765    0.0028    1
   19    1    3    0    0.3358   -0.3483    0.3388   -0.3445    0.0049    1

###            No.50                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.9067    1.1479    0.9820   91.3153  101.1106   93.7963      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.9625    1.0829    1.0652   90.0000  115.7410   90.0000      0.0000         0.9036    1.0166
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0108    0.0215    0.0265    0.0000    1.3358    0.0000      0.0000         0.0169    0.0250
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.3532   -0.7725   -0.7406)
 a2 = (   -0.8294    0.0254    0.2734)
 a3 = (   -0.2846    0.6004   -0.7981)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.3628   -0.7905   -0.7576) (    0.0072    0.0076    0.0079)
 a2 = (   -0.8642    0.0996    0.3099) (    0.0183    0.0069    0.0057)
 a3 = (   -0.2918    0.3659   -0.9313) (    0.0084    0.0265    0.0142)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -62.9361  132.4788 -167.5405    0.4901    0.5296    0.5399
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0009    0.0015    0.0000      0.0024    0.0026    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.3227         3.1457
# Chi-squares at the beginning and the end of the refinement
    7.2374    0.0872
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -3   -1   -0.3948   -0.0985   -0.3948   -0.0985    0.0000    1
    2   -2    0    1   -0.0603   -0.3066   -0.0649   -0.2885    0.0187    1
    3   -1   -4   -3   -0.4247    0.1061   -0.4653    0.1876    0.0911    0
    4    3   -1   -4   -0.0271    0.1417    0.0088    0.1499    0.0369    0
    5    1   -2   -2   -0.0760    0.0821   -0.0615    0.0665    0.0213    0
    6   -1    0    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    2    5   -1    0.1252    0.0553    0.1477    0.0591    0.0228    0
    8    0    4    1    0.0790   -0.0154    0.0790   -0.0154    0.0000    1
    9   -1    6   -1    0.7287   -0.0545    0.6879   -0.0069    0.0626    0
   10   -4    3    1    0.2531   -0.7011    0.1845   -0.7818    0.1060    0
   11   -1    1    1    0.0648   -0.1192    0.0532   -0.1549    0.0376    0
   12   -2    4    1    0.3830   -0.2972    0.3747   -0.2907    0.0105    1
   13   -4   -2    1   -0.2146   -0.2802   -0.2415   -0.2352    0.0524    0
   14   -1   -3   -1   -0.2296   -0.0071   -0.2334   -0.0072    0.0037    1
   15    2    4   -1    0.0845    0.0462    0.0894    0.0482    0.0054    1
   16    3    2   -3    0.0670    0.1461    0.0758    0.1206    0.0270    0
   17   -2    1    1    0.0799   -0.4257    0.1219   -0.4292    0.0421    0
   18   -2   -1    0   -0.3974   -0.3932   -0.4045   -0.3765    0.0181    1
   19   -2    3    1    0.3375   -0.3628    0.3388   -0.3445    0.0184    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -3   -1   -0.3956   -0.0987   -0.3948   -0.0985    0.0009    1
    2   -2    0    1   -0.0646   -0.2842   -0.0649   -0.2885    0.0043    1
    3    0   -1   -1   -0.4635    0.1877   -0.4653    0.1876    0.0019    1
    4    1    0   -1    0.0083    0.1511    0.0088    0.1499    0.0013    1
    5    2   -3   -3   -0.0593    0.0649   -0.0615    0.0665    0.0028    1
    6   -1    0    0   -0.3642   -0.7901   -0.3626   -0.7930    0.0033    1
    7    2    4   -1    0.1446    0.0594    0.1477    0.0591    0.0031    1
    8    0    4    1    0.0780   -0.0146    0.0790   -0.0154    0.0012    1
    9    0    4   -1    0.6849   -0.0056    0.6879   -0.0069    0.0033    1
   10   -4    2    1    0.1079   -0.7113    0.1845   -0.7818    0.1041    0
   11   -4    2    3    0.0456   -0.1785    0.0532   -0.1549    0.0248    0
   12   -2    4    1    0.3756   -0.2907    0.3747   -0.2907    0.0009    1
   13   -4   -2    1   -0.2209   -0.2521   -0.2415   -0.2352    0.0267    0
   14   -1   -3   -1   -0.2344   -0.0076   -0.2334   -0.0072    0.0011    1
   15    2    3   -1    0.0872    0.0494    0.0894    0.0482    0.0025    1
   16    4    3   -3    0.0845    0.1082    0.0758    0.1206    0.0151    1
   17   -2    1    1    0.0870   -0.4167    0.1219   -0.4292    0.0370    0
   18   -2   -1    0   -0.4067   -0.3767   -0.4045   -0.3765    0.0022    1
   19   -2    3    1    0.3358   -0.3488    0.3388   -0.3445    0.0053    1

###            No.51                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.6034    1.2149    1.3661   89.5668   92.7483   91.3937      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.6071    1.2108    1.3605   90.0000   90.2614   90.0000      0.0000         0.4462    0.8899
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0222    0.0286    0.0000    0.8797    0.0000      0.0000         0.0094    0.0164
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.3491   -1.5527   -0.4706)
 a2 = (   -0.2427    0.2586   -0.7431)
 a3 = (    0.6777   -0.1124   -0.2553)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.3434   -1.5413   -0.4692) (    0.0179    0.0040    0.0097)
 a2 = (   -0.2337    0.2779   -0.7418) (    0.0071    0.0068    0.0135)
 a3 = (    0.6874   -0.0815   -0.2471) (    0.0153    0.0071    0.0050)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -162.4065  109.5662   83.5002    0.3662    0.3858    0.6661
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0024    0.0000      0.0025    0.0024    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.8731         3.1407
# Chi-squares at the beginning and the end of the refinement
    1.1364    0.1056
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1   -2    3   -0.3921   -0.0954   -0.3948   -0.0985    0.0041    1
    2   -1    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0   -1    1   -0.4559    0.1838   -0.4653    0.1876    0.0102    1
    4    1   -1    0    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5    1   -2    3   -0.0516    0.0573   -0.0615    0.0665    0.0136    1
    6   -1   -1    0   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7    1    0   -4    0.1592    0.0574    0.1477    0.0591    0.0117    1
    8    0    1   -4    0.0890   -0.0213    0.0790   -0.0154    0.0116    1
    9    0   -1   -4    0.7105   -0.0550    0.6879   -0.0069    0.0531    0
   10   -2   -1   -3    0.2362   -0.6884    0.1845   -0.7818    0.1067    0
   11   -2    1   -2    0.0466   -0.1858    0.0532   -0.1549    0.0315    0
   12   -1    0   -4    0.3674   -0.3115    0.3747   -0.2907    0.0220    1
   13   -2   -1    2   -0.2219   -0.2533   -0.2415   -0.2352    0.0267    0
   14   -1   -3    6   -0.2270   -0.0045   -0.2334   -0.0072    0.0069    1
   15    1    0   -3    0.0983    0.0502    0.0894    0.0482    0.0091    1
   16    3   -2   -3    0.0723    0.1349    0.0758    0.1206    0.0147    1
   17   -1    0   -1    0.0828   -0.4196    0.1219   -0.4292    0.0402    0
   18   -1   -1    1   -0.4045   -0.3765   -0.4045   -0.3765    0.0000    1
   19   -1    0   -3    0.3249   -0.3646    0.3388   -0.3445    0.0245    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1   -2    3   -0.3961   -0.0995   -0.3948   -0.0985    0.0016    1
    2   -1    0    0   -0.0653   -0.2876   -0.0649   -0.2885    0.0010    1
    3    0   -1    1   -0.4668    0.1843   -0.4653    0.1876    0.0036    1
    4    1   -1    0    0.0083    0.1518    0.0088    0.1499    0.0019    1
    5    1   -2    3   -0.0589    0.0647   -0.0615    0.0665    0.0032    1
    6   -1   -1    0   -0.3630   -0.7906   -0.3626   -0.7930    0.0024    1
    7    1    0   -4    0.1447    0.0596    0.1477    0.0591    0.0030    1
    8    0    1   -4    0.0787   -0.0137    0.0790   -0.0154    0.0018    1
    9    0   -1   -4    0.6868   -0.0108    0.6879   -0.0069    0.0040    1
   10   -2   -1   -2    0.1089   -0.7135    0.1845   -0.7818    0.1019    0
   11   -2    1   -2    0.0473   -0.1811    0.0532   -0.1549    0.0268    0
   12   -1    0   -4    0.3774   -0.2910    0.3747   -0.2907    0.0026    1
   13   -2   -1    2   -0.2230   -0.2534   -0.2415   -0.2352    0.0260    0
   14   -1   -3    6   -0.2348   -0.0075   -0.2334   -0.0072    0.0014    1
   15    1    0   -3    0.0870    0.0497    0.0894    0.0482    0.0029    1
   16    2   -1   -3    0.0848    0.1083    0.0758    0.1206    0.0152    1
   17   -1    0   -1    0.0888   -0.4200    0.1219   -0.4292    0.0343    0
   18   -1   -1    1   -0.4075   -0.3778   -0.4045   -0.3765    0.0033    1
   19   -1    0   -3    0.3380   -0.3494    0.3388   -0.3445    0.0050    1

###            No.52                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.2321    0.6688    1.2708   89.1582  107.1325   92.1188      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.2508    0.6659    1.2529   90.0000  106.6154   90.0000      0.0000         0.9984    0.5315
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0096    0.0123    0.0207    0.0000    1.4784    0.0000      0.0000         0.0148    0.0095
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.5415    0.5505    0.3549)
 a2 = (   -0.4277    0.5197   -1.3363)
 a3 = (   -0.7211   -0.3888    0.0832)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.5204    0.5396    0.3662) (    0.0120    0.0103    0.0061)
 a2 = (   -0.4234    0.5069   -1.3487) (    0.0170    0.0147    0.0223)
 a3 = (   -0.7304   -0.3918    0.0820) (    0.0115    0.0110    0.0048)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  153.9536   91.6159  -46.8298    0.4641    0.6226    0.9459
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
    0.0001    0.0017    0.0000      0.0026    0.0024    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.2272         3.1041
# Chi-squares at the beginning and the end of the refinement
    1.1928    0.0937
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    0   -1   -3   -0.3948   -0.0985   -0.3948   -0.0985    0.0000    1
    2    1    0   -1   -0.0533   -0.2790   -0.0649   -0.2885    0.0149    1
    3   -1   -1   -1   -0.4571    0.1843   -0.4653    0.1876    0.0089    1
    4   -3   -1    3    0.0052    0.1560    0.0088    0.1499    0.0071    1
    5   -3   -1    0   -0.0624    0.0661   -0.0615    0.0665    0.0010    1
    6    3   -1   -3   -0.3345   -0.7954   -0.3626   -0.7930    0.0282    1
    7    1    0    6    0.1548    0.0567    0.1477    0.0591    0.0075    1
    8    4    1    4    0.0727   -0.0155    0.0790   -0.0154    0.0063    1
    9    4   -1    4    0.6678   -0.0184    0.6879   -0.0069    0.0232    1
   10    6   -1   -3    0.1320   -0.7922    0.1845   -0.7818    0.0536    0
   11    6    1   -2    0.0535   -0.1102    0.0532   -0.1549    0.0447    0
   12    6    0    1    0.3622   -0.2659    0.3747   -0.2907    0.0278    0
   13    2   -1   -6   -0.2584   -0.2052   -0.2415   -0.2352    0.0345    0
   14   -1   -1   -3   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    0    0    1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -3   -1    6    0.0689    0.1364    0.0758    0.1206    0.0173    1
   17    5    0   -2    0.1447   -0.4037    0.1219   -0.4292    0.0342    0
   18    2   -1   -4   -0.4006   -0.3839   -0.4045   -0.3765    0.0084    1
   19    1    0    0    0.3223   -0.3277    0.3388   -0.3445    0.0235    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    0   -1   -3   -0.3957   -0.0995   -0.3948   -0.0985    0.0013    1
    2    1    0   -1   -0.0654   -0.2886   -0.0649   -0.2885    0.0006    1
    3   -1   -1   -1   -0.4664    0.1841   -0.4653    0.1876    0.0037    1
    4   -3   -1    3    0.0095    0.1514    0.0088    0.1499    0.0016    1
    5   -3   -1    0   -0.0586    0.0645   -0.0615    0.0665    0.0035    1
    6    3   -1   -3   -0.3656   -0.7922   -0.3626   -0.7930    0.0031    1
    7    1    0    6    0.1541    0.0586    0.1477    0.0591    0.0065    1
    8    4    1    4    0.0787   -0.0142    0.0790   -0.0154    0.0012    1
    9    4   -1    4    0.6858   -0.0109    0.6879   -0.0069    0.0045    1
   10    6   -1   -3    0.1080   -0.8290    0.1845   -0.7818    0.0899    0
   11    6    1   -2    0.0575   -0.1230    0.0532   -0.1549    0.0322    0
   12    6    0    1    0.3828   -0.2810    0.3747   -0.2907    0.0126    1
   13    2   -1   -6   -0.2632   -0.2027   -0.2415   -0.2352    0.0391    0
   14   -1   -1   -3   -0.2344   -0.0080   -0.2334   -0.0072    0.0013    1
   15    0    0    1    0.0873    0.0485    0.0894    0.0482    0.0022    1
   16   -3   -1    6    0.0691    0.1305    0.0758    0.1206    0.0120    1
   17    5    0   -2    0.1418   -0.4307    0.1219   -0.4292    0.0199    1
   18    2   -1   -4   -0.4084   -0.3776   -0.4045   -0.3765    0.0041    1
   19    1    0    0    0.3392   -0.3499    0.3388   -0.3445    0.0055    1

###            No.53                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.9428    0.7572    1.4705   91.5552  107.6287   90.4698      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.9323    0.7518    1.5008   90.0000  108.0814   90.0000      0.0000         0.6212    0.5009
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0063    0.0191    0.0388    0.0000    1.1851    0.0000      0.0000         0.0158    0.0096
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.0645    1.0974   -0.1744)
 a2 = (   -1.2216    0.1702    0.4739)
 a3 = (    0.2497    0.2999    0.5978)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.0677    1.1141   -0.1652) (    0.0105    0.0016    0.0123)
 a2 = (   -1.2449    0.1419    0.4466) (    0.0324    0.0110    0.0116)
 a3 = (    0.2444    0.2927    0.5881) (    0.0078    0.0136    0.0136)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -23.5606   21.4879  108.6091    1.5738    0.4361    1.7552
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0002    0.0003    0.0000      0.0023    0.0030    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.9639         3.1003
# Chi-squares at the beginning and the end of the refinement
    1.2614    0.1297
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    0   -1    2   -0.3948   -0.0985   -0.3948   -0.0985    0.0000    1
    2    1    0    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1   -1    2   -0.4653    0.1876   -0.4653    0.1876    0.0000    1
    4   -1    0    0    0.0093    0.1583    0.0088    0.1499    0.0084    1
    5   -4   -2    1   -0.0331    0.0602   -0.0615    0.0665    0.0291    0
    6    1    0    4   -0.3679   -0.7949   -0.3626   -0.7930    0.0057    1
    7   -1    2   -1    0.1658    0.0636    0.1477    0.0591    0.0186    0
    8    1    4   -2    0.0941   -0.0208    0.0790   -0.0154    0.0161    1
    9   -1    4    2    0.7323   -0.0301    0.6879   -0.0069    0.0501    0
   10    2    2    5    0.2197   -0.8314    0.1845   -0.7818    0.0607    0
   11    4    2    1    0.0565   -0.1469    0.0532   -0.1549    0.0087    1
   12    1    2    1    0.3866   -0.3155    0.3747   -0.2907    0.0274    0
   13    2   -2    5   -0.2502   -0.2196   -0.2415   -0.2352    0.0179    1
   14   -1   -3    4   -0.2468    0.0219   -0.2334   -0.0072    0.0320    0
   15   -2    3   -2    0.1043    0.0555    0.0894    0.0482    0.0166    1
   16   -4    1   -1    0.0424    0.1107    0.0758    0.1206    0.0349    0
   17    3    2    3    0.1461   -0.4411    0.1219   -0.4292    0.0270    0
   18    1   -1    4   -0.4087   -0.3805   -0.4045   -0.3765    0.0058    1
   19    2    3    2    0.3420   -0.3722    0.3388   -0.3445    0.0279    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    0   -1    2   -0.3953   -0.1008   -0.3948   -0.0985    0.0023    1
    2    1    0    1   -0.0638   -0.2863   -0.0649   -0.2885    0.0025    1
    3   -1   -1    2   -0.4625    0.1863   -0.4653    0.1876    0.0031    1
    4   -1    0    0    0.0087    0.1480    0.0088    0.1499    0.0019    1
    5   -4   -2    1   -0.0341    0.0615   -0.0615    0.0665    0.0279    0
    6    1    0    4   -0.3624   -0.7914   -0.3626   -0.7930    0.0016    1
    7   -1    2   -1    0.1444    0.0583    0.1477    0.0591    0.0034    1
    8    1    4   -2    0.0789   -0.0158    0.0790   -0.0154    0.0004    1
    9   -1    4    2    0.6859   -0.0055    0.6879   -0.0069    0.0025    1
   10    2    2    5    0.2320   -0.8149    0.1845   -0.7818    0.0579    0
   11    4    2    1    0.0552   -0.1410    0.0532   -0.1549    0.0141    1
   12    1    2    1    0.3769   -0.2925    0.3747   -0.2907    0.0028    1
   13    2   -2    5   -0.2503   -0.2213   -0.2415   -0.2352    0.0165    1
   14   -1   -3    4   -0.2523    0.0203   -0.2334   -0.0072    0.0333    0
   15   -2    3   -2    0.0869    0.0480    0.0894    0.0482    0.0025    1
   16   -4    2   -1    0.1000    0.1492    0.0758    0.1206    0.0374    0
   17    3    2    3    0.1477   -0.4287    0.1219   -0.4292    0.0259    0
   18    1   -1    4   -0.4055   -0.3790   -0.4045   -0.3765    0.0027    1
   19    2    3    2    0.3369   -0.3508    0.3388   -0.3445    0.0066    1

###            No.54                ###
# Bravais type
   Monoclinic(P)
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.2149    0.6034    1.3661   87.2517   90.4332   91.3937      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.2126    0.6071    1.3584   90.0000   89.7500   90.0000      0.0000         0.8926    0.4469
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0002    0.0125    0.0359    0.0000    1.7054    0.0000      0.0000         0.0237    0.0104
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.2427    0.2586   -0.7431)
 a2 = (   -0.3491   -1.5527   -0.4706)
 a3 = (   -0.6777    0.1124    0.2553)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.2303    0.2775   -0.7417) (    0.0217    0.0047    0.0075)
 a2 = (   -0.3478   -1.5404   -0.4683) (    0.0151    0.0312    0.0131)
 a3 = (   -0.6887    0.0803    0.2474) (    0.0184    0.0059    0.0077)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -107.5424   70.5972  -96.7280    0.3751    1.5045    0.7090
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0011    0.0024    0.0000      0.0032    0.0024    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.8731         3.0914
# Chi-squares at the beginning and the end of the refinement
    1.1697    0.1086
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -1   -3   -0.3921   -0.0954   -0.3948   -0.0985    0.0041    1
    2    0   -1    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1    0   -1   -0.4559    0.1838   -0.4653    0.1876    0.0102    1
    4   -1    1    0    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5   -2    1   -3   -0.0516    0.0573   -0.0615    0.0665    0.0136    1
    6   -1   -1    0   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7    0    1    4    0.1592    0.0574    0.1477    0.0591    0.0117    1
    8    1    0    4    0.0890   -0.0213    0.0790   -0.0154    0.0116    1
    9   -1    0    4    0.7105   -0.0550    0.6879   -0.0069    0.0531    0
   10   -1   -2    3    0.2362   -0.6884    0.1845   -0.7818    0.1067    0
   11    1   -2    2    0.0466   -0.1858    0.0532   -0.1549    0.0315    0
   12    0   -1    4    0.3674   -0.3115    0.3747   -0.2907    0.0220    1
   13   -1   -2   -2   -0.2219   -0.2533   -0.2415   -0.2352    0.0267    0
   14   -3   -1   -6   -0.2270   -0.0045   -0.2334   -0.0072    0.0069    1
   15    0    1    3    0.0983    0.0502    0.0894    0.0482    0.0091    1
   16   -2    3    3    0.0723    0.1349    0.0758    0.1206    0.0147    1
   17    0   -1    1    0.0828   -0.4196    0.1219   -0.4292    0.0402    0
   18   -1   -1   -1   -0.4045   -0.3765   -0.4045   -0.3765    0.0000    1
   19    0   -1    3    0.3249   -0.3646    0.3388   -0.3445    0.0245    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -1   -3   -0.3954   -0.0997   -0.3948   -0.0985    0.0013    1
    2    0   -1    0   -0.0664   -0.2868   -0.0649   -0.2885    0.0023    1
    3   -1    0   -1   -0.4682    0.1842   -0.4653    0.1876    0.0044    1
    4   -1    1    0    0.0086    0.1522    0.0088    0.1499    0.0023    1
    5   -2    1   -3   -0.0594    0.0648   -0.0615    0.0665    0.0028    1
    6   -1   -1    0   -0.3637   -0.7897   -0.3626   -0.7930    0.0035    1
    7    0    1    4    0.1445    0.0596    0.1477    0.0591    0.0033    1
    8    1    0    4    0.0788   -0.0136    0.0790   -0.0154    0.0018    1
    9   -1    0    4    0.6846   -0.0094    0.6879   -0.0069    0.0042    1
   10   -1   -2    2    0.1080   -0.7142    0.1845   -0.7818    0.1021    0
   11    1   -2    2    0.0465   -0.1813    0.0532   -0.1549    0.0272    0
   12    0   -1    4    0.3779   -0.2908    0.3747   -0.2907    0.0032    1
   13   -1   -2   -2   -0.2229   -0.2521   -0.2415   -0.2352    0.0251    0
   14   -3   -1   -6   -0.2344   -0.0078   -0.2334   -0.0072    0.0013    1
   15    0    1    3    0.0869    0.0498    0.0894    0.0482    0.0030    1
   16   -1    2    3    0.0848    0.1082    0.0758    0.1206    0.0153    1
   17    0   -1    1    0.0878   -0.4205    0.1219   -0.4292    0.0351    0
   18   -1   -1   -1   -0.4071   -0.3766   -0.4045   -0.3765    0.0026    1
   19    0   -1    3    0.3385   -0.3497    0.3388   -0.3445    0.0052    1

###                                ###
### Candidates for       Triclinic ###
###                                ###

###            No.1                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.8192    0.9499    1.2855   89.6507   88.8576   89.0570      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.8386    0.9438    1.2636   90.0584   88.9954   90.2196      0.0000         0.6637    0.7469
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0004    0.0227    0.0234    0.8425    1.4756    1.5404      0.0000         0.0123    0.0139
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.3615    0.4351   -1.0822)
 a2 = (    0.9859   -0.1081   -0.3533)
 a3 = (   -0.1637   -0.7279   -0.2206)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.3296    0.4171   -1.0675) (    0.0284    0.0246    0.0125)
 a2 = (    0.9914   -0.1153   -0.3557) (    0.0243    0.0111    0.0103)
 a3 = (   -0.1654   -0.7412   -0.2230) (    0.0086    0.0133    0.0067)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -110.3653  107.2890  -13.0032    1.4330    1.2642    0.5939
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0011    0.0000      0.0028    0.0027    0.0000

# Number of computed bands
            265            271
# Figure of merit at the beginning and the end of the refinement
         6.0656        20.7481
# Chi-squares at the beginning and the end of the refinement
    0.2578    0.0196
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    3   -3   -0.4009   -0.0951   -0.3948   -0.0985    0.0070    1
    2    0    0   -1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1    1    0   -0.4653    0.1876   -0.4653    0.1876    0.0000    1
    4   -1    0    3    0.0079    0.1601    0.0088    0.1499    0.0102    1
    5   -2    3    3   -0.0654    0.0693   -0.0615    0.0665    0.0047    1
    6   -1    0   -3   -0.3928   -0.8059   -0.3626   -0.7930    0.0328    1
    7    0   -4    3    0.1466    0.0579    0.1477    0.0591    0.0016    1
    8    1   -4    0    0.0739   -0.0149    0.0790   -0.0154    0.0051    1
    9   -1   -4    0    0.6966    0.0005    0.6879   -0.0069    0.0115    1
   10   -1   -2   -5    0.1858   -0.8024    0.1845   -0.7818    0.0206    1
   11    1   -2   -5    0.0532   -0.1507    0.0532   -0.1549    0.0042    1
   12    0   -4   -3    0.3818   -0.2893    0.3747   -0.2907    0.0072    1
   13   -1    2   -5   -0.2470   -0.2343   -0.2415   -0.2352    0.0056    1
   14   -1    2   -1   -0.2385   -0.0073   -0.2334   -0.0072    0.0052    1
   15    0   -1    1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1   -2    5    0.0801    0.1273    0.0758    0.1206    0.0080    1
   17    0   -2   -5    0.1289   -0.4308    0.1219   -0.4292    0.0072    1
   18   -1    1   -3   -0.4211   -0.3758   -0.4045   -0.3765    0.0166    1
   19    0   -1   -1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    3   -3   -0.3961   -0.0988   -0.3948   -0.0985    0.0013    1
    2    0    0   -1   -0.0647   -0.2855   -0.0649   -0.2885    0.0029    1
    3   -1    1    0   -0.4642    0.1879   -0.4653    0.1876    0.0012    1
    4   -1    0    3    0.0088    0.1514    0.0088    0.1499    0.0015    1
    5   -2    3    3   -0.0591    0.0645   -0.0615    0.0665    0.0032    1
    6   -1    0   -3   -0.3642   -0.7941   -0.3626   -0.7930    0.0020    1
    7    0   -4    3    0.1454    0.0588    0.1477    0.0591    0.0023    1
    8    1   -4    0    0.0787   -0.0151    0.0790   -0.0154    0.0004    1
    9   -1   -4    0    0.6841   -0.0072    0.6879   -0.0069    0.0038    1
   10   -1   -2   -5    0.1823   -0.7783    0.1845   -0.7818    0.0042    1
   11    1   -2   -5    0.0526   -0.1551    0.0532   -0.1549    0.0006    1
   12    0   -4   -3    0.3764   -0.2907    0.3747   -0.2907    0.0017    1
   13   -1    2   -5   -0.2412   -0.2331   -0.2415   -0.2352    0.0021    1
   14   -1    2   -1   -0.2341   -0.0077   -0.2334   -0.0072    0.0009    1
   15    0   -1    1    0.0880    0.0491    0.0894    0.0482    0.0017    1
   16   -1   -2    5    0.0766    0.1224    0.0758    0.1206    0.0020    1
   17    0   -2   -5    0.1247   -0.4261    0.1219   -0.4292    0.0042    1
   18   -1    1   -3   -0.4079   -0.3779   -0.4045   -0.3765    0.0037    1
   19    0   -1   -1    0.3369   -0.3490    0.3388   -0.3445    0.0049    1

###            No.2                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.8346    0.9410    1.2735   89.6629   89.1596   89.5532      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.8386    0.9438    1.2636   90.0584   91.0046   89.7804      0.0000         0.6637    0.7469
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0004    0.0227    0.0234    0.8425    1.4756    1.5404      0.0000         0.0123    0.0139
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.3363    0.3853   -1.0837)
 a2 = (   -0.9952    0.1091    0.3567)
 a3 = (    0.1652    0.7348    0.2227)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.3296    0.4171   -1.0675) (    0.0284    0.0246    0.0125)
 a2 = (   -0.9914    0.1153    0.3557) (    0.0243    0.0111    0.0103)
 a3 = (    0.1654    0.7412    0.2230) (    0.0086    0.0133    0.0067)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -69.6347   72.7110  166.9968    1.4330    1.2642    0.5939
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0011    0.0000      0.0028    0.0027    0.0000

# Number of computed bands
            277            271
# Figure of merit at the beginning and the end of the refinement
         9.6586        20.7481
# Chi-squares at the beginning and the end of the refinement
    0.2064    0.0196
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -3    3   -0.3969   -0.1057   -0.3948   -0.0985    0.0075    1
    2    0    0    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1   -1    0   -0.4799    0.1782   -0.4653    0.1876    0.0173    1
    4   -1    0   -3    0.0098    0.1599    0.0088    0.1499    0.0100    1
    5   -2   -3   -3   -0.0649    0.0678   -0.0615    0.0665    0.0036    1
    6   -1    0    3   -0.3642   -0.7964   -0.3626   -0.7930    0.0038    1
    7    0    4   -3    0.1466    0.0579    0.1477    0.0591    0.0016    1
    8    1    4    0    0.0767   -0.0146    0.0790   -0.0154    0.0025    1
    9   -1    4    0    0.6887   -0.0097    0.6879   -0.0069    0.0028    1
   10   -1    2    5    0.1856   -0.7861    0.1845   -0.7818    0.0044    1
   11    1    2    5    0.0543   -0.1547    0.0532   -0.1549    0.0011    1
   12    0    4    3    0.3818   -0.2893    0.3747   -0.2907    0.0072    1
   13   -1   -2    5   -0.2415   -0.2352   -0.2415   -0.2352    0.0000    1
   14   -1   -2    1   -0.2373   -0.0125   -0.2334   -0.0072    0.0067    1
   15    0    1   -1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1    2   -5    0.0811    0.1256    0.0758    0.1206    0.0073    1
   17    0    2    5    0.1289   -0.4308    0.1219   -0.4292    0.0072    1
   18   -1   -1    3   -0.4070   -0.3810   -0.4045   -0.3765    0.0051    1
   19    0    1    1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -3    3   -0.3961   -0.0988   -0.3948   -0.0985    0.0013    1
    2    0    0    1   -0.0647   -0.2855   -0.0649   -0.2885    0.0029    1
    3   -1   -1    0   -0.4642    0.1879   -0.4653    0.1876    0.0012    1
    4   -1    0   -3    0.0088    0.1514    0.0088    0.1499    0.0015    1
    5   -2   -3   -3   -0.0591    0.0645   -0.0615    0.0665    0.0032    1
    6   -1    0    3   -0.3642   -0.7941   -0.3626   -0.7930    0.0020    1
    7    0    4   -3    0.1454    0.0588    0.1477    0.0591    0.0023    1
    8    1    4    0    0.0787   -0.0151    0.0790   -0.0154    0.0004    1
    9   -1    4    0    0.6841   -0.0072    0.6879   -0.0069    0.0038    1
   10   -1    2    5    0.1823   -0.7783    0.1845   -0.7818    0.0042    1
   11    1    2    5    0.0526   -0.1551    0.0532   -0.1549    0.0006    1
   12    0    4    3    0.3764   -0.2907    0.3747   -0.2907    0.0017    1
   13   -1   -2    5   -0.2412   -0.2331   -0.2415   -0.2352    0.0021    1
   14   -1   -2    1   -0.2341   -0.0077   -0.2334   -0.0072    0.0009    1
   15    0    1   -1    0.0880    0.0491    0.0894    0.0482    0.0017    1
   16   -1    2   -5    0.0766    0.1224    0.0758    0.1206    0.0020    1
   17    0    2    5    0.1247   -0.4261    0.1219   -0.4292    0.0042    1
   18   -1   -1    3   -0.4079   -0.3779   -0.4045   -0.3765    0.0037    1
   19    0    1    1    0.3369   -0.3490    0.3388   -0.3445    0.0049    1

###            No.4                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.4623    1.5128    1.5303   70.5405   82.3121   87.0608      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.4710    1.5033    1.6827   57.0641   90.3577   90.1073      0.0000         0.2799    0.8934
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0374    0.0414    1.2127    1.5773    1.2510      0.0000         0.0068    0.0152
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -2.0234    0.3864    0.7220)
 a2 = (   -0.1926   -0.6396   -0.2128)
 a3 = (    0.3073   -0.0482    0.6254)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -1.9859    0.2315    0.7142) (    0.0054    0.0218    0.0131)
 a2 = (   -0.1655   -0.7421   -0.2239) (    0.0072    0.0151    0.0062)
 a3 = (    0.2458    0.1621    0.6440) (    0.0169    0.0132    0.0116)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  129.9637   26.0334   40.3481    0.8870    0.3767    0.9225
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0010    0.0010    0.0000      0.0028    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.2339         7.8409
# Chi-squares at the beginning and the end of the refinement
    3.2789    0.0451
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1   -2    3   -0.4515   -0.1014   -0.3948   -0.0985    0.0568    0
    2    0   -1    0   -0.0919   -0.3051   -0.0649   -0.2885    0.0317    0
    3   -1    1    4   -0.4419    0.1760   -0.4653    0.1876    0.0262    0
    4    0    2    1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5   -1    4    3   -0.0461    0.0655   -0.0615    0.0665    0.0154    1
    6    0   -5    3   -0.4304   -0.6972   -0.3626   -0.7930    0.1174    0
    7    2    3    0    0.1641    0.0407    0.1477    0.0591    0.0247    0
    8    2   -1   -2    0.0816   -0.0275    0.0790   -0.0154    0.0124    1
    9    2    1    2    0.6846   -0.0069    0.6879   -0.0069    0.0033    1
   10    1   -4    1    0.2239   -0.6859    0.1845   -0.7818    0.1037    0
   11    1   -6   -2    0.0532   -0.1549    0.0532   -0.1549    0.0000    1
   12    2   -3    0    0.3747   -0.2907    0.3747   -0.2907    0.0000    1
   13   -1   -6    2   -0.2671   -0.2362   -0.2415   -0.2352    0.0256    0
   14   -2   -1    4   -0.2315    0.0138   -0.2334   -0.0072    0.0211    0
   15    1    2    0    0.1082    0.0401    0.0894    0.0482    0.0204    0
   16    1    6    2    0.0931    0.1288    0.0758    0.1206    0.0191    0
   17    1   -5    0    0.1355   -0.4582    0.1219   -0.4292    0.0321    0
   18   -1   -6    3   -0.3592   -0.2896   -0.4045   -0.3765    0.0979    0
   19    1   -2    0    0.3445   -0.3502    0.3388   -0.3445    0.0081    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -1    5   -0.3617   -0.0722   -0.3948   -0.0985    0.0423    0
    2    0   -1    0   -0.0651   -0.2864   -0.0649   -0.2885    0.0021    1
    3   -1    2    4   -0.4615    0.1874   -0.4653    0.1876    0.0038    1
    4    0    2    1    0.0086    0.1488    0.0088    0.1499    0.0012    1
    5   -1    4    3   -0.0581    0.0763   -0.0615    0.0665    0.0103    1
    6    0   -1    1   -0.3627   -0.7943   -0.3626   -0.7930    0.0014    1
    7    2    3    0    0.1456    0.0588    0.1477    0.0591    0.0022    1
    8    2   -1   -2    0.0804   -0.0157    0.0790   -0.0154    0.0014    1
    9    2    1    2    0.6826   -0.0074    0.6879   -0.0069    0.0054    1
   10    1   -4    2    0.1830   -0.7779    0.1845   -0.7818    0.0042    1
   11    1   -6   -2    0.0529   -0.1572    0.0532   -0.1549    0.0023    1
   12    2   -3    0    0.3770   -0.2915    0.3747   -0.2907    0.0024    1
   13   -1   -4    2   -0.2409   -0.2329   -0.2415   -0.2352    0.0024    1
   14   -1    0    2   -0.2322   -0.0076   -0.2334   -0.0072    0.0012    1
   15    1    2    0    0.0880    0.0491    0.0894    0.0482    0.0017    1
   16    1    6    2    0.0757    0.1211    0.0758    0.1206    0.0005    1
   17    1   -5    0    0.1249   -0.4272    0.1219   -0.4292    0.0036    1
   18   -1   -4    4   -0.4072   -0.3778   -0.4045   -0.3765    0.0030    1
   19    1   -2    0    0.3375   -0.3498    0.3388   -0.3445    0.0055    1

###            No.5                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.4679    1.4604    1.6270  115.8641   90.3007   91.5293      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.4710    1.5033    1.6827  122.9359   89.6423   90.1073      0.0000         0.2799    0.8934
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0374    0.0414    1.2127    1.5773    1.2510      0.0000         0.0068    0.0152
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    2.0130   -0.1665   -0.7011)
 a2 = (    0.1601    0.7123    0.2159)
 a3 = (    0.2408    0.0721    0.6352)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    1.9859   -0.2315   -0.7142) (    0.0054    0.0218    0.0131)
 a2 = (    0.1655    0.7421    0.2239) (    0.0072    0.0151    0.0062)
 a3 = (    0.2458    0.1621    0.6440) (    0.0169    0.0132    0.0116)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -50.0363   26.0334   40.3481    0.8870    0.3767    0.9225
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0010    0.0010    0.0000      0.0028    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.0199         7.8409
# Chi-squares at the beginning and the end of the refinement
    0.7999    0.0451
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    1    5   -0.3623   -0.0497   -0.3948   -0.0985    0.0586    0
    2    0    1    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    1   -2    4   -0.4273    0.2096   -0.4653    0.1876    0.0439    0
    4    0   -2    1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5    1   -4    3   -0.0584    0.0781   -0.0615    0.0665    0.0120    1
    6    0    5    4   -0.3561   -0.7772   -0.3626   -0.7930    0.0171    1
    7   -2   -3    0    0.1443    0.0578    0.1477    0.0591    0.0036    1
    8   -2    1   -2    0.0767   -0.0159    0.0790   -0.0154    0.0024    1
    9   -2   -1    2    0.6605    0.0419    0.6879   -0.0069    0.0560    0
   10   -1    5    2    0.1436   -0.7608    0.1845   -0.7818    0.0460    0
   11   -1    6   -2    0.0535   -0.1499    0.0532   -0.1549    0.0051    1
   12   -2    3    0    0.3893   -0.2712    0.3747   -0.2907    0.0244    0
   13    1    4    2   -0.2521   -0.2273   -0.2415   -0.2352    0.0132    1
   14    1    0    2   -0.2282    0.0020   -0.2334   -0.0072    0.0106    1
   15   -1   -2    0    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1   -6    2    0.0769    0.1223    0.0758    0.1206    0.0020    1
   17   -1    5    0    0.1405   -0.4319    0.1219   -0.4292    0.0188    1
   18    1    4    4   -0.4463   -0.3666   -0.4045   -0.3765    0.0429    0
   19   -1    2    0    0.3553   -0.3340    0.3388   -0.3445    0.0196    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    1    5   -0.3617   -0.0722   -0.3948   -0.0985    0.0423    0
    2    0    1    0   -0.0651   -0.2864   -0.0649   -0.2885    0.0021    1
    3    1   -2    4   -0.4615    0.1874   -0.4653    0.1876    0.0038    1
    4    0   -2    1    0.0086    0.1488    0.0088    0.1499    0.0012    1
    5    1   -4    3   -0.0581    0.0763   -0.0615    0.0665    0.0103    1
    6    0    1    1   -0.3627   -0.7943   -0.3626   -0.7930    0.0014    1
    7   -2   -3    0    0.1456    0.0588    0.1477    0.0591    0.0022    1
    8   -2    1   -2    0.0804   -0.0157    0.0790   -0.0154    0.0014    1
    9   -2   -1    2    0.6826   -0.0074    0.6879   -0.0069    0.0054    1
   10   -1    4    2    0.1830   -0.7779    0.1845   -0.7818    0.0042    1
   11   -1    6   -2    0.0529   -0.1572    0.0532   -0.1549    0.0023    1
   12   -2    3    0    0.3770   -0.2915    0.3747   -0.2907    0.0024    1
   13    1    4    2   -0.2409   -0.2329   -0.2415   -0.2352    0.0024    1
   14    1    0    2   -0.2322   -0.0076   -0.2334   -0.0072    0.0012    1
   15   -1   -2    0    0.0880    0.0491    0.0894    0.0482    0.0017    1
   16   -1   -6    2    0.0757    0.1211    0.0758    0.1206    0.0005    1
   17   -1    5    0    0.1249   -0.4272    0.1219   -0.4292    0.0036    1
   18    1    4    4   -0.4072   -0.3778   -0.4045   -0.3765    0.0030    1
   19   -1    2    0    0.3375   -0.3498    0.3388   -0.3445    0.0055    1

###            No.6                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.4171    1.0920    2.1986   88.6202   89.8550   87.3470      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.4123    1.1043    2.1967   91.0058   90.2217   89.9083      0.0000         0.1877    0.5027
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0209    0.0534    1.4742    1.5491    0.8703      0.0000         0.0046    0.0096
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -2.2170    0.3607    0.8459)
 a2 = (   -0.1929   -0.8580   -0.2600)
 a3 = (    0.1341   -0.1429    0.4106)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -2.2693    0.2647    0.8142) (    0.0062    0.0245    0.0149)
 a2 = (   -0.1891   -0.8481   -0.2555) (    0.0084    0.0171    0.0070)
 a3 = (    0.1258   -0.1593    0.4075) (    0.0132    0.0112    0.0074)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  129.9880   25.9859   40.3302    0.8957    0.3738    0.9292
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0011    0.0000      0.0028    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.5254         7.4659
# Chi-squares at the beginning and the end of the refinement
    0.3951    0.0191
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1   -2    4   -0.3948   -0.0985   -0.3948   -0.0985    0.0000    1
    2    0   -1    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1    0    6   -0.4605    0.1857   -0.4653    0.1876    0.0052    1
    4    0    1    1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5   -1    2    4   -0.0519    0.0580   -0.0615    0.0665    0.0129    1
    6    0   -1    1   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7    2    3    0    0.1600    0.0591    0.1477    0.0591    0.0123    1
    8    2    0   -3    0.0900   -0.0214    0.0790   -0.0154    0.0125    1
    9    2    0    3    0.7213   -0.0524    0.6879   -0.0069    0.0564    0
   10    1   -5    3    0.1549   -0.7689    0.1845   -0.7818    0.0323    0
   11    1   -5   -3    0.0530   -0.1627    0.0532   -0.1549    0.0078    1
   12    2   -3    0    0.3705   -0.3166    0.3747   -0.2907    0.0262    0
   13   -1   -5    3   -0.2408   -0.2352   -0.2415   -0.2352    0.0008    1
   14   -1   -1    3   -0.2296   -0.0056   -0.2334   -0.0072    0.0041    1
   15    1    2    0    0.0985    0.0513    0.0894    0.0482    0.0095    1
   16    1    5    3    0.0809    0.1268    0.0758    0.1206    0.0080    1
   17    1   -5    0    0.1159   -0.4302    0.1219   -0.4292    0.0061    1
   18   -1   -5    6   -0.4593   -0.3539   -0.4045   -0.3765    0.0593    0
   19    1   -2    0    0.3263   -0.3700    0.3388   -0.3445    0.0284    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1   -2    4   -0.3967   -0.0987   -0.3948   -0.0985    0.0019    1
    2    0   -1    0   -0.0647   -0.2859   -0.0649   -0.2885    0.0026    1
    3   -1    0    6   -0.4645    0.1883   -0.4653    0.1876    0.0011    1
    4    0    1    1    0.0088    0.1514    0.0088    0.1499    0.0015    1
    5   -1    2    4   -0.0592    0.0646   -0.0615    0.0665    0.0031    1
    6    0   -1    1   -0.3647   -0.7952   -0.3626   -0.7930    0.0030    1
    7    2    3    0    0.1454    0.0587    0.1477    0.0591    0.0023    1
    8    2    0   -3    0.0785   -0.0152    0.0790   -0.0154    0.0006    1
    9    2    0    3    0.6844   -0.0074    0.6879   -0.0069    0.0036    1
   10    1   -5    3    0.1826   -0.7788    0.1845   -0.7818    0.0035    1
   11    1   -5   -3    0.0526   -0.1551    0.0532   -0.1549    0.0006    1
   12    2   -3    0    0.3764   -0.2908    0.3747   -0.2907    0.0017    1
   13   -1   -5    3   -0.2416   -0.2335   -0.2415   -0.2352    0.0017    1
   14   -1   -1    3   -0.2345   -0.0076   -0.2334   -0.0072    0.0012    1
   15    1    2    0    0.0879    0.0490    0.0894    0.0482    0.0017    1
   16    1    5    3    0.0766    0.1224    0.0758    0.1206    0.0019    1
   17    1   -5    0    0.1249   -0.4263    0.1219   -0.4292    0.0042    1
   18   -1   -5    5   -0.3871   -0.3185   -0.4045   -0.3765    0.0606    0
   19    1   -2    0    0.3370   -0.3491    0.3388   -0.3445    0.0049    1

###            No.7                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.3978    1.1175    2.2513   91.3642   90.3007   91.8378      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.4123    1.1043    2.1967   88.9942   89.7783   89.9083      0.0000         0.1877    0.5027
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0209    0.0534    1.4742    1.5491    0.8703      0.0000         0.0046    0.0096
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    2.3679   -0.1958   -0.8247)
 a2 = (    0.1884    0.8379    0.2539)
 a3 = (    0.1310   -0.1396    0.4010)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    2.2693   -0.2647   -0.8142) (    0.0062    0.0245    0.0149)
 a2 = (    0.1891    0.8481    0.2555) (    0.0084    0.0171    0.0070)
 a3 = (    0.1258   -0.1593    0.4075) (    0.0132    0.0112    0.0074)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -50.0120   25.9859   40.3302    0.8957    0.3738    0.9292
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0011    0.0000      0.0028    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.0828         7.4659
# Chi-squares at the beginning and the end of the refinement
    0.7760    0.0191
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    1    2    4   -0.3648   -0.1029   -0.3948   -0.0985    0.0303    0
    2    0    1    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    1    0    6   -0.4528    0.1483   -0.4653    0.1876    0.0412    0
    4    0   -1    1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5    1   -2    4   -0.0558    0.0539   -0.0615    0.0665    0.0139    1
    6    0    1    1   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7   -2   -3    0    0.1443    0.0578    0.1477    0.0591    0.0036    1
    8   -2    0   -3    0.0849   -0.0134    0.0790   -0.0154    0.0062    1
    9   -2    0    3    0.6568    0.0041    0.6879   -0.0069    0.0331    0
   10   -1    5    3    0.2028   -0.7785    0.1845   -0.7818    0.0186    1
   11   -1    5   -3    0.0614   -0.1623    0.0532   -0.1549    0.0111    1
   12   -2    3    0    0.3893   -0.2712    0.3747   -0.2907    0.0244    0
   13    1    5    3   -0.2303   -0.2224   -0.2415   -0.2352    0.0171    1
   14    1    1    3   -0.2131   -0.0161   -0.2334   -0.0072    0.0221    0
   15   -1   -2    0    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1   -5    3    0.0790    0.1196    0.0758    0.1206    0.0034    1
   17   -1    5    0    0.1405   -0.4319    0.1219   -0.4292    0.0188    1
   18    1    5    5   -0.3654   -0.3038   -0.4045   -0.3765    0.0826    0
   19   -1    2    0    0.3553   -0.3340    0.3388   -0.3445    0.0196    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    1    2    4   -0.3967   -0.0987   -0.3948   -0.0985    0.0019    1
    2    0    1    0   -0.0647   -0.2859   -0.0649   -0.2885    0.0026    1
    3    1    0    6   -0.4645    0.1883   -0.4653    0.1876    0.0011    1
    4    0   -1    1    0.0088    0.1514    0.0088    0.1499    0.0015    1
    5    1   -2    4   -0.0592    0.0646   -0.0615    0.0665    0.0031    1
    6    0    1    1   -0.3647   -0.7952   -0.3626   -0.7930    0.0030    1
    7   -2   -3    0    0.1454    0.0587    0.1477    0.0591    0.0023    1
    8   -2    0   -3    0.0785   -0.0152    0.0790   -0.0154    0.0006    1
    9   -2    0    3    0.6844   -0.0074    0.6879   -0.0069    0.0036    1
   10   -1    5    3    0.1826   -0.7788    0.1845   -0.7818    0.0035    1
   11   -1    5   -3    0.0526   -0.1551    0.0532   -0.1549    0.0006    1
   12   -2    3    0    0.3764   -0.2908    0.3747   -0.2907    0.0017    1
   13    1    5    3   -0.2416   -0.2335   -0.2415   -0.2352    0.0017    1
   14    1    1    3   -0.2345   -0.0076   -0.2334   -0.0072    0.0012    1
   15   -1   -2    0    0.0879    0.0490    0.0894    0.0482    0.0017    1
   16   -1   -5    3    0.0766    0.1224    0.0758    0.1206    0.0019    1
   17   -1    5    0    0.1249   -0.4263    0.1219   -0.4292    0.0042    1
   18    1    5    5   -0.3871   -0.3185   -0.4045   -0.3765    0.0606    0
   19   -1    2    0    0.3370   -0.3491    0.3388   -0.3445    0.0049    1

###            No.8                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.5845    1.0429    1.6472   85.2082   88.1337   89.6741      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.5944    1.0578    1.5908   91.0295   90.0900   89.7262      0.0000         0.3736    0.6650
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0275    0.0315    1.5281    1.1120    1.7137      0.0000         0.0074    0.0148
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    1.6116   -0.1333   -0.5613)
 a2 = (    0.2849   -0.2466    0.8854)
 a3 = (   -0.1282   -0.5703   -0.1728)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    1.5740   -0.1835   -0.5653) (    0.0048    0.0173    0.0118)
 a2 = (    0.2606   -0.3313    0.8464) (    0.0317    0.0240    0.0172)
 a3 = (   -0.1313   -0.5887   -0.1774) (    0.0095    0.0123    0.0053)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -20.6073  107.3232  -13.0367    0.4522    1.3300    0.6493
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0012    0.0000      0.0049    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.8287         6.9587
# Chi-squares at the beginning and the end of the refinement
    1.2206    0.0206
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    3   -3   -0.4486   -0.0708   -0.3948   -0.0985    0.0606    0
    2    0    0   -1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    2    4    1   -0.4474    0.1927   -0.4653    0.1876    0.0186    1
    4    0    1    3    0.0095    0.1870    0.0088    0.1499    0.0370    0
    5    2    3    6   -0.0538    0.0720   -0.0615    0.0665    0.0095    1
    6    0    1   -3   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7   -2    0    3    0.1443    0.0578    0.1477    0.0591    0.0036    1
    8   -2   -1    0    0.0662   -0.0097    0.0790   -0.0154    0.0140    1
    9   -2    1    0    0.6834   -0.0046    0.6879   -0.0069    0.0051    1
   10   -1    1   -5    0.1989   -0.7942    0.1845   -0.7818    0.0189    1
   11   -1   -1   -5    0.0564   -0.1452    0.0532   -0.1549    0.0103    1
   12   -3    0   -5    0.3795   -0.2942    0.3747   -0.2907    0.0059    1
   13    1    1   -5   -0.2403   -0.2340   -0.2415   -0.2352    0.0017    1
   14    1    1   -1   -0.2433   -0.0229   -0.2334   -0.0072    0.0186    1
   15   -1    0    2    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1    1    5    0.0905    0.1364    0.0758    0.1206    0.0216    0
   17   -1    0   -5    0.1405   -0.4319    0.1219   -0.4292    0.0188    1
   18    1    2   -6   -0.4013   -0.3801   -0.4045   -0.3765    0.0048    1
   19   -1    0   -2    0.3553   -0.3340    0.3388   -0.3445    0.0196    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    3   -4   -0.4536   -0.0999   -0.3948   -0.0985    0.0588    0
    2    0    0   -1   -0.0647   -0.2859   -0.0649   -0.2885    0.0026    1
    3    1    2    0   -0.4633    0.1880   -0.4653    0.1876    0.0020    1
    4    0    1    3    0.0088    0.1503    0.0088    0.1499    0.0004    1
    5    2    3    5   -0.0590    0.0779   -0.0615    0.0665    0.0117    1
    6    0    1   -3   -0.3635   -0.7941   -0.3626   -0.7930    0.0014    1
    7   -2    0    3    0.1455    0.0589    0.1477    0.0591    0.0022    1
    8   -2   -1    0    0.0794   -0.0152    0.0790   -0.0154    0.0004    1
    9   -2    1    0    0.6839   -0.0073    0.6879   -0.0069    0.0040    1
   10   -1    1   -5    0.1824   -0.7781    0.1845   -0.7818    0.0043    1
   11   -1   -1   -5    0.0528   -0.1558    0.0532   -0.1549    0.0010    1
   12   -2    0   -3    0.3767   -0.2911    0.3747   -0.2907    0.0020    1
   13    1    1   -5   -0.2410   -0.2332   -0.2415   -0.2352    0.0021    1
   14    1    1   -1   -0.2335   -0.0076   -0.2334   -0.0072    0.0005    1
   15   -1    0    2    0.0880    0.0491    0.0894    0.0482    0.0017    1
   16   -1    1    5    0.0763    0.1219    0.0758    0.1206    0.0013    1
   17   -1    0   -5    0.1248   -0.4265    0.1219   -0.4292    0.0040    1
   18    1    2   -6   -0.4076   -0.3780   -0.4045   -0.3765    0.0035    1
   19   -1    0   -2    0.3372   -0.3494    0.3388   -0.3445    0.0052    1

###            No.9                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.5893    1.0261    1.6566   87.3248   88.1028   88.8416      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.5935    1.0601    1.5899   88.9086   90.1107   90.3577      0.0000         0.3733    0.6667
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0261    0.0304    1.5060    0.8517    1.5773      0.0000         0.0071    0.0126
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -1.5987    0.1322    0.5568)
 a2 = (    0.2866   -0.3717    0.8555)
 a3 = (    0.1272    0.5657    0.1714)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -1.5762    0.1837    0.5669) (    0.0043    0.0173    0.0104)
 a2 = (    0.2588   -0.3317    0.8445) (    0.0276    0.0237    0.0157)
 a3 = (    0.1313    0.5890    0.1777) (    0.0057    0.0120    0.0049)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   20.6412   72.6044  166.9266    0.4024    1.2892    0.6274
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0010    0.0010    0.0000      0.0028    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.8241         6.7709
# Chi-squares at the beginning and the end of the refinement
    0.5421    0.0451
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    3    4   -0.4515   -0.0873   -0.3948   -0.0985    0.0578    0
    2    0    0    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1    2    0   -0.4571    0.1843   -0.4653    0.1876    0.0089    1
    4    0    1   -3    0.0076    0.1645    0.0088    0.1499    0.0147    1
    5   -2    3   -5   -0.0693    0.0852   -0.0615    0.0665    0.0202    0
    6    0    1    4   -0.2912   -0.6925   -0.3626   -0.7930    0.1232    0
    7    2    0   -3    0.1443    0.0578    0.1477    0.0591    0.0036    1
    8    2   -1    0    0.0717   -0.0131    0.0790   -0.0154    0.0077    1
    9    2    1    0    0.6756    0.0249    0.6879   -0.0069    0.0342    0
   10    1    1    5    0.2143   -0.8206    0.1845   -0.7818    0.0489    0
   11    1   -1    5    0.0551   -0.1470    0.0532   -0.1549    0.0082    1
   12    3    0    5    0.3795   -0.2942    0.3747   -0.2907    0.0059    1
   13   -1    1    5   -0.2478   -0.2285   -0.2415   -0.2352    0.0092    1
   14   -1    1    1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    1    0   -2    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    1    1   -5    0.0819    0.1289    0.0758    0.1206    0.0103    1
   17    1    0    5    0.1405   -0.4319    0.1219   -0.4292    0.0188    1
   18   -1    2    6   -0.4283   -0.3675   -0.4045   -0.3765    0.0254    0
   19    1    0    2    0.3553   -0.3340    0.3388   -0.3445    0.0196    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    3    4   -0.4524   -0.0997   -0.3948   -0.0985    0.0576    0
    2    0    0    1   -0.0651   -0.2864   -0.0649   -0.2885    0.0021    1
    3   -1    2    0   -0.4615    0.1874   -0.4653    0.1876    0.0038    1
    4    0    1   -3    0.0086    0.1488    0.0088    0.1499    0.0012    1
    5   -2    3   -5   -0.0581    0.0763   -0.0615    0.0665    0.0103    1
    6    0    1    3   -0.3627   -0.7943   -0.3626   -0.7930    0.0014    1
    7    2    0   -3    0.1456    0.0588    0.1477    0.0591    0.0022    1
    8    2   -1    0    0.0804   -0.0157    0.0790   -0.0154    0.0014    1
    9    2    1    0    0.6826   -0.0074    0.6879   -0.0069    0.0054    1
   10    1    1    5    0.1830   -0.7779    0.1845   -0.7818    0.0042    1
   11    1   -1    5    0.0529   -0.1572    0.0532   -0.1549    0.0023    1
   12    2    0    3    0.3770   -0.2915    0.3747   -0.2907    0.0024    1
   13   -1    1    5   -0.2409   -0.2329   -0.2415   -0.2352    0.0024    1
   14   -1    1    1   -0.2322   -0.0076   -0.2334   -0.0072    0.0012    1
   15    1    0   -2    0.0880    0.0491    0.0894    0.0482    0.0017    1
   16    1    1   -5    0.0757    0.1211    0.0758    0.1206    0.0005    1
   17    1    0    5    0.1249   -0.4272    0.1219   -0.4292    0.0036    1
   18   -1    2    6   -0.4072   -0.3778   -0.4045   -0.3765    0.0030    1
   19    1    0    2    0.3375   -0.3498    0.3388   -0.3445    0.0055    1

###            No.12                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.7903    0.9093    1.4503   94.9479  105.5341   90.3007      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.7986    0.8987    1.4511   94.3481  105.5936   89.8296      0.0000         0.5503    0.6193
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0056    0.0227    0.0294    0.9972    1.4464    1.6819      0.0000         0.0101    0.0147
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.4411   -0.0950    1.2339)
 a2 = (    1.0497   -0.0248   -0.3424)
 a3 = (    0.1512    0.6723    0.2038)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.4238   -0.0942    1.2257) (    0.0316    0.0278    0.0113)
 a2 = (    1.0596   -0.0421   -0.3482) (    0.0274    0.0115    0.0106)
 a3 = (    0.1526    0.6709    0.2039) (    0.0079    0.0127    0.0053)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  109.2452   86.7607  176.6578    1.4811    1.2505    0.5454
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0014    0.0023    0.0000      0.0029    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         4.8292         5.0638
# Chi-squares at the beginning and the end of the refinement
    0.4206    0.2060
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    3    2   -0.4015   -0.1001   -0.3948   -0.0985    0.0069    1
    2    0    0    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    3    3   -2   -0.4659    0.1904   -0.4653    0.1876    0.0028    1
    4    1    0   -4    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5    2    3   -5   -0.0579    0.0641   -0.0615    0.0665    0.0044    1
    6    1    0    3   -0.3673   -0.7891   -0.3626   -0.7930    0.0060    1
    7    0   -4   -3    0.1393    0.0574    0.1477    0.0591    0.0085    1
    8   -1   -4    1    0.0729   -0.0141    0.0790   -0.0154    0.0063    1
    9    1   -4    0    0.6929   -0.0008    0.6879   -0.0069    0.0079    1
   10    1   -2    6    0.1433   -0.7606    0.1845   -0.7818    0.0464    0
   11   -1   -2    6    0.0546   -0.1398    0.0532   -0.1549    0.0152    1
   12    0   -1    1    0.3794   -0.2944    0.3747   -0.2907    0.0059    1
   13    1    2    5   -0.2436   -0.2378   -0.2415   -0.2352    0.0033    1
   14    2    4    1   -0.2475   -0.0181   -0.2334   -0.0072    0.0179    1
   15    0   -1   -1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    1   -2   -6    0.0769    0.1223    0.0758    0.1206    0.0020    1
   17    0   -1    3    0.1257   -0.4304    0.1219   -0.4292    0.0040    1
   18    1    1    3   -0.3959   -0.3864   -0.4045   -0.3765    0.0131    1
   19    0   -4    5    0.3450   -0.3468    0.3388   -0.3445    0.0067    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    3    2   -0.3981   -0.0917   -0.3948   -0.0985    0.0076    1
    2    0    0    1   -0.0671   -0.2867   -0.0649   -0.2885    0.0029    1
    3    3    3   -2   -0.4568    0.1947   -0.4653    0.1876    0.0110    1
    4    1    0   -4    0.0084    0.1493    0.0088    0.1499    0.0008    1
    5    2    3   -5   -0.0538    0.0612   -0.0615    0.0665    0.0093    1
    6    1    0    3   -0.3648   -0.7884   -0.3626   -0.7930    0.0050    1
    7    0   -4   -3    0.1426    0.0589    0.1477    0.0591    0.0051    1
    8   -1   -4    1    0.0774   -0.0140    0.0790   -0.0154    0.0021    1
    9    1   -4    0    0.6847   -0.0111    0.6879   -0.0069    0.0052    1
   10    1   -2    6    0.1452   -0.7525    0.1845   -0.7818    0.0490    0
   11   -1   -2    6    0.0542   -0.1413    0.0532   -0.1549    0.0137    1
   12    0   -1    1    0.3747   -0.2934    0.3747   -0.2907    0.0027    1
   13    1    2    5   -0.2451   -0.2318   -0.2415   -0.2352    0.0050    1
   14    2    4    1   -0.2416   -0.0121   -0.2334   -0.0072    0.0096    1
   15    0   -1   -1    0.0923    0.0510    0.0894    0.0482    0.0040    1
   16    1   -2   -6    0.0775    0.1243    0.0758    0.1206    0.0041    1
   17    0   -1    3    0.1246   -0.4279    0.1219   -0.4292    0.0030    1
   18    1    1    3   -0.3980   -0.3811   -0.4045   -0.3765    0.0079    1
   19    0   -4    5    0.3409   -0.3447    0.3388   -0.3445    0.0021    1

###            No.13                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.8011    0.9031    1.4281   84.8215   76.3913   89.5532      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.7986    0.8987    1.4511   85.6519   74.4064   89.8296      0.0000         0.5503    0.6193
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0056    0.0227    0.0294    0.9972    1.4464    1.6819      0.0000         0.0101    0.0147
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.4101    0.1354   -1.2097)
 a2 = (   -1.0568    0.0250    0.3447)
 a3 = (    0.1522    0.6769    0.2051)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.4238    0.0942   -1.2257) (    0.0316    0.0278    0.0113)
 a2 = (   -1.0596    0.0421    0.3482) (    0.0274    0.0115    0.0106)
 a3 = (    0.1526    0.6709    0.2039) (    0.0079    0.0127    0.0053)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -70.7548   86.7607  176.6578    1.4811    1.2505    0.5454
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0014    0.0023    0.0000      0.0029    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         4.0824         5.0638
# Chi-squares at the beginning and the end of the refinement
    0.3319    0.2060
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -3    2   -0.3962   -0.0930   -0.3948   -0.0985    0.0057    1
    2    0    0    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -3   -3   -2   -0.4442    0.1990   -0.4653    0.1876    0.0240    0
    4   -1    0   -4    0.0095    0.1362    0.0088    0.1499    0.0137    1
    5   -2   -3   -5   -0.0477    0.0551   -0.0615    0.0665    0.0180    0
    6   -1    0    3   -0.3642   -0.7964   -0.3626   -0.7930    0.0038    1
    7    0    4   -3    0.1393    0.0574    0.1477    0.0591    0.0085    1
    8    1    4    1    0.0801   -0.0163    0.0790   -0.0154    0.0014    1
    9   -1    4    0    0.6781    0.0063    0.6879   -0.0069    0.0165    1
   10   -1    2    6    0.1505   -0.7573    0.1845   -0.7818    0.0419    0
   11    1    2    6    0.0555   -0.1463    0.0532   -0.1549    0.0090    1
   12    0    1    1    0.3794   -0.2944    0.3747   -0.2907    0.0059    1
   13   -1   -2    5   -0.2415   -0.2352   -0.2415   -0.2352    0.0000    1
   14   -2   -4    1   -0.2387   -0.0141   -0.2334   -0.0072    0.0087    1
   15    0    1   -1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1    2   -6    0.0727    0.1153    0.0758    0.1206    0.0062    1
   17    0    1    3    0.1257   -0.4304    0.1219   -0.4292    0.0040    1
   18   -1   -1    3   -0.3956   -0.3847   -0.4045   -0.3765    0.0121    1
   19    0    4    5    0.3450   -0.3468    0.3388   -0.3445    0.0067    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -3    2   -0.3981   -0.0917   -0.3948   -0.0985    0.0076    1
    2    0    0    1   -0.0671   -0.2867   -0.0649   -0.2885    0.0029    1
    3   -3   -3   -2   -0.4568    0.1947   -0.4653    0.1876    0.0110    1
    4   -1    0   -4    0.0084    0.1493    0.0088    0.1499    0.0008    1
    5   -2   -3   -5   -0.0538    0.0612   -0.0615    0.0665    0.0093    1
    6   -1    0    3   -0.3648   -0.7884   -0.3626   -0.7930    0.0050    1
    7    0    4   -3    0.1426    0.0589    0.1477    0.0591    0.0051    1
    8    1    4    1    0.0774   -0.0140    0.0790   -0.0154    0.0021    1
    9   -1    4    0    0.6847   -0.0111    0.6879   -0.0069    0.0052    1
   10   -1    2    6    0.1452   -0.7525    0.1845   -0.7818    0.0490    0
   11    1    2    6    0.0542   -0.1413    0.0532   -0.1549    0.0137    1
   12    0    1    1    0.3747   -0.2934    0.3747   -0.2907    0.0027    1
   13   -1   -2    5   -0.2451   -0.2318   -0.2415   -0.2352    0.0050    1
   14   -2   -4    1   -0.2416   -0.0121   -0.2334   -0.0072    0.0096    1
   15    0    1   -1    0.0923    0.0510    0.0894    0.0482    0.0040    1
   16   -1    2   -6    0.0775    0.1243    0.0758    0.1206    0.0041    1
   17    0    1    3    0.1246   -0.4279    0.1219   -0.4292    0.0030    1
   18   -1   -1    3   -0.3980   -0.3811   -0.4045   -0.3765    0.0079    1
   19    0    4    5    0.3409   -0.3447    0.3388   -0.3445    0.0021    1

###            No.14                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.7735    0.8695    1.5089   98.3855   95.1133   90.0349      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.7650    0.8618    1.5365   98.7653   92.4998   90.5165      0.0000         0.4979    0.5609
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0009    0.0223    0.0323    0.9547    1.5062    1.5837      0.0000         0.0104    0.0109
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.3368    0.5432   -1.1298)
 a2 = (   -1.0417    0.2860    0.4296)
 a3 = (    0.1415    0.6293    0.1907)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.3628    0.4964   -1.1553) (    0.0322    0.0275    0.0149)
 a2 = (   -1.0488    0.2978    0.4362) (    0.0271    0.0132    0.0125)
 a3 = (    0.1399    0.6165    0.1870) (    0.0081    0.0124    0.0063)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -66.4097   74.4242  157.7459    1.4819    1.2900    0.6641
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0003    0.0036    0.0000      0.0028    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         3.3092         4.0348
# Chi-squares at the beginning and the end of the refinement
    0.4441    0.1042
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -3    5   -0.3987   -0.1064   -0.3948   -0.0985    0.0087    1
    2    0    0    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -3   -3    1   -0.4507    0.1958   -0.4653    0.1876    0.0168    1
    4   -1    0   -4    0.0089    0.1192    0.0088    0.1499    0.0307    0
    5   -2   -3   -3   -0.0516    0.0586   -0.0615    0.0665    0.0127    1
    6   -1    0    4   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    0    4   -5    0.1342    0.0552    0.1477    0.0591    0.0140    1
    8    1    4   -1    0.0814   -0.0185    0.0790   -0.0154    0.0040    1
    9   -1    4   -1    0.6691    0.0048    0.6879   -0.0069    0.0222    1
   10   -1    2    6    0.1841   -0.7801    0.1845   -0.7818    0.0018    1
   11    1    2    6    0.0520   -0.1619    0.0532   -0.1549    0.0071    1
   12    0    3    2    0.3780   -0.2815    0.3747   -0.2907    0.0098    1
   13   -1   -2    6   -0.2604   -0.2119   -0.2415   -0.2352    0.0300    0
   14   -1   -2    2   -0.2405   -0.0128   -0.2334   -0.0072    0.0091    1
   15    0    2   -3    0.0897    0.0471    0.0894    0.0482    0.0012    1
   16   -1    1   -5    0.0630    0.1518    0.0758    0.1206    0.0338    0
   17    0    1    3    0.1211   -0.4264    0.1219   -0.4292    0.0029    1
   18   -1   -1    4   -0.4291   -0.3725   -0.4045   -0.3765    0.0249    0
   19    0    1    1    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -3    5   -0.3968   -0.1001   -0.3948   -0.0985    0.0026    1
    2    0    0    1   -0.0658   -0.2848   -0.0649   -0.2885    0.0038    1
    3   -3   -3    1   -0.4611    0.1897   -0.4653    0.1876    0.0047    1
    4   -1    0   -4    0.0088    0.1406    0.0088    0.1499    0.0093    1
    5   -2   -3   -3   -0.0592    0.0673   -0.0615    0.0665    0.0025    1
    6   -1    0    4   -0.3715   -0.7888   -0.3626   -0.7930    0.0098    1
    7    0    4   -5    0.1437    0.0593    0.1477    0.0591    0.0040    1
    8    1    4   -1    0.0811   -0.0149    0.0790   -0.0154    0.0022    1
    9   -1    4   -1    0.6824   -0.0098    0.6879   -0.0069    0.0062    1
   10   -1    2    6    0.1849   -0.7819    0.1845   -0.7818    0.0004    1
   11    1    2    6    0.0528   -0.1535    0.0532   -0.1549    0.0015    1
   12    0    4    3    0.3701   -0.2947    0.3747   -0.2907    0.0061    1
   13   -1   -2    6   -0.2624   -0.2034   -0.2415   -0.2352    0.0381    0
   14   -1   -2    2   -0.2394   -0.0087   -0.2334   -0.0072    0.0062    1
   15    0    2   -3    0.0988    0.0530    0.0894    0.0482    0.0105    1
   16   -1    1   -6    0.0406    0.1082    0.0758    0.1206    0.0374    0
   17    0    1    3    0.1250   -0.4240    0.1219   -0.4292    0.0060    1
   18   -1   -1    4   -0.4332   -0.3635   -0.4045   -0.3765    0.0315    0
   19    0    1    1    0.3405   -0.3392    0.3388   -0.3445    0.0056    1

###            No.15                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.7502    1.1730    1.2477   65.6204   89.4679   89.9407      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.7473    1.1946    1.2143   67.3046   90.2661   89.9649      0.0000         0.6154    0.9838
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0314    0.0258    1.0377    1.0478    1.3070      0.0000         0.0131    0.0246
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    1.2483   -0.1368   -0.4474)
 a2 = (    0.1081   -0.7657    0.5273)
 a3 = (   -0.3153   -0.1559   -0.8066)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    1.2520   -0.1454   -0.4497) (    0.0041    0.0143    0.0104)
 a2 = (    0.1028   -0.7298    0.5293) (    0.0239    0.0256    0.0117)
 a3 = (   -0.3102   -0.2042   -0.8118) (    0.0216    0.0170    0.0153)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -29.9825  137.7448  -29.7471    0.8476    0.9549    0.9113
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0010    0.0000      0.0029    0.0029    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.7633         3.8115
# Chi-squares at the beginning and the end of the refinement
    0.4381    0.0491
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -1   -4   -0.4521   -0.1382   -0.3948   -0.0985    0.0697    0
    2    0   -1   -1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    1    1   -1   -0.4421    0.1975   -0.4653    0.1876    0.0252    0
    4    0    2    1    0.0086    0.1464    0.0088    0.1499    0.0035    1
    5    2    4    1   -0.0560    0.0748   -0.0615    0.0665    0.0100    1
    6    0   -3   -5   -0.2781   -0.6834   -0.3626   -0.7930    0.1383    0
    7   -3    2    2    0.1684    0.0580    0.1477    0.0591    0.0207    0
    8   -3   -2    0    0.0585   -0.0287    0.0790   -0.0154    0.0244    0
    9   -4    1   -1    0.6833    0.0093    0.6879   -0.0069    0.0169    1
   10   -1   -2   -3    0.1945   -0.8013    0.1845   -0.7818    0.0219    1
   11   -1   -3   -2    0.0535   -0.1560    0.0532   -0.1549    0.0011    1
   12   -3   -2   -2    0.3914   -0.2649    0.3747   -0.2907    0.0308    0
   13    1   -2   -3   -0.2460   -0.2316   -0.2415   -0.2352    0.0057    1
   14    1    0   -1   -0.2297   -0.0028   -0.2334   -0.0072    0.0057    1
   15   -1    1    1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1    3    2    0.0758    0.1206    0.0758    0.1206    0.0000    1
   17   -1   -3   -3    0.0914   -0.4232    0.1219   -0.4292    0.0311    0
   18    1   -2   -4   -0.4237   -0.3729   -0.4045   -0.3765    0.0196    1
   19   -1   -1   -1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    3    0   -4   -0.3783   -0.0277   -0.3948   -0.0985    0.0727    0
    2    0   -1   -1   -0.0647   -0.2872   -0.0649   -0.2885    0.0013    1
    3    1    1   -1   -0.4613    0.1866   -0.4653    0.1876    0.0042    1
    4    0    2    1    0.0086    0.1488    0.0088    0.1499    0.0012    1
    5    2    4    1   -0.0581    0.0762   -0.0615    0.0665    0.0103    1
    6    0   -1   -2   -0.3630   -0.7956   -0.3626   -0.7930    0.0026    1
    7   -3    2    2    0.1675    0.0588    0.1477    0.0591    0.0198    0
    8   -4   -1    1    0.0803   -0.0155    0.0790   -0.0154    0.0013    1
    9   -4    1   -1    0.6825   -0.0073    0.6879   -0.0069    0.0054    1
   10   -1   -2   -3    0.1845   -0.7785    0.1845   -0.7818    0.0033    1
   11   -1   -3   -2    0.0535   -0.1573    0.0532   -0.1549    0.0024    1
   12   -3   -2   -2    0.3875   -0.2667    0.3747   -0.2907    0.0272    0
   13    1   -2   -3   -0.2412   -0.2333   -0.2415   -0.2352    0.0019    1
   14    1    0   -1   -0.2321   -0.0077   -0.2334   -0.0072    0.0013    1
   15   -1    1    1    0.0880    0.0490    0.0894    0.0482    0.0016    1
   16   -1    3    2    0.0758    0.1211    0.0758    0.1206    0.0005    1
   17   -1   -3   -3    0.0892   -0.4198    0.1219   -0.4292    0.0339    0
   18    1   -2   -4   -0.4077   -0.3781   -0.4045   -0.3765    0.0036    1
   19   -1   -1   -1    0.3383   -0.3492    0.3388   -0.3445    0.0048    1

###            No.16                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.7644    1.1897    1.1935  112.8394   91.2483   90.2325      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.7473    1.2143    1.1946  112.6954   89.9649   89.7339      0.0000         0.6255    1.0165
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0258    0.0314    1.0377    1.3070    1.0478      0.0000         0.0164    0.0255
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    1.2170   -0.1644   -0.4521)
 a2 = (    0.3455    0.2123    0.8170)
 a3 = (    0.1238   -0.7278    0.5311)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    1.2520   -0.1454   -0.4497) (    0.0041    0.0143    0.0104)
 a2 = (    0.3102    0.2042    0.8118) (    0.0216    0.0170    0.0153)
 a3 = (    0.1028   -0.7298    0.5293) (    0.0239    0.0256    0.0117)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -20.3177   75.4176   -1.2974    0.5152    1.0146    0.6412
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0010    0.0000      0.0029    0.0029    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.3688         3.8115
# Chi-squares at the beginning and the end of the refinement
    0.2548    0.0491
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    4   -1   -0.4455   -0.1506   -0.3948   -0.0985    0.0727    0
    2    0    1   -1   -0.0680   -0.2882   -0.0649   -0.2885    0.0031    1
    3    1    1    1   -0.4571    0.1843   -0.4653    0.1876    0.0089    1
    4    0   -1    2    0.0086    0.1464    0.0088    0.1499    0.0035    1
    5    2   -1    4   -0.0560    0.0748   -0.0615    0.0665    0.0100    1
    6    0    2   -1   -0.3792   -0.7704   -0.3626   -0.7930    0.0280    1
    7   -3   -2    2    0.1718    0.0582    0.1477    0.0591    0.0241    0
    8   -4   -1   -1    0.0822   -0.0181    0.0790   -0.0154    0.0042    1
    9   -4    1    1    0.7169   -0.0231    0.6879   -0.0069    0.0331    0
   10   -1    3   -2    0.1493   -0.7874    0.1845   -0.7818    0.0356    0
   11   -1    2   -3    0.0521   -0.1609    0.0532   -0.1549    0.0061    1
   12   -3    2   -2    0.3885   -0.2874    0.3747   -0.2907    0.0141    1
   13    1    3   -2   -0.2428   -0.2334   -0.2415   -0.2352    0.0023    1
   14    1    1    0   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15   -1   -1    1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1   -2    3    0.0758    0.1206    0.0758    0.1206    0.0000    1
   17   -1    3   -3    0.0784   -0.4244    0.1219   -0.4292    0.0437    0
   18    1    4   -2   -0.4079   -0.3713   -0.4045   -0.3765    0.0062    1
   19   -1    1   -1    0.3323   -0.3688    0.3388   -0.3445    0.0252    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    3    4    0   -0.3783   -0.0277   -0.3948   -0.0985    0.0727    0
    2    0    1   -1   -0.0647   -0.2872   -0.0649   -0.2885    0.0013    1
    3    1    1    1   -0.4613    0.1866   -0.4653    0.1876    0.0042    1
    4    0   -1    2    0.0086    0.1488    0.0088    0.1499    0.0012    1
    5    2   -1    4   -0.0581    0.0762   -0.0615    0.0665    0.0103    1
    6    0    2   -1   -0.3630   -0.7956   -0.3626   -0.7930    0.0026    1
    7   -3   -2    2    0.1675    0.0588    0.1477    0.0591    0.0198    0
    8   -4   -1   -1    0.0803   -0.0155    0.0790   -0.0154    0.0013    1
    9   -4    1    1    0.6825   -0.0073    0.6879   -0.0069    0.0054    1
   10   -1    3   -2    0.1845   -0.7785    0.1845   -0.7818    0.0033    1
   11   -1    2   -3    0.0535   -0.1573    0.0532   -0.1549    0.0024    1
   12   -3    2   -2    0.3875   -0.2667    0.3747   -0.2907    0.0272    0
   13    1    3   -2   -0.2412   -0.2333   -0.2415   -0.2352    0.0019    1
   14    1    1    0   -0.2321   -0.0077   -0.2334   -0.0072    0.0013    1
   15   -1   -1    1    0.0880    0.0490    0.0894    0.0482    0.0016    1
   16   -1   -2    3    0.0758    0.1211    0.0758    0.1206    0.0005    1
   17   -1    3   -3    0.0892   -0.4198    0.1219   -0.4292    0.0339    0
   18    1    4   -2   -0.4077   -0.3781   -0.4045   -0.3765    0.0036    1
   19   -1    1   -1    0.3383   -0.3492    0.3388   -0.3445    0.0048    1

###            No.17                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.7604    1.1938    1.1941   67.3475   88.3779   89.6623      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.7473    1.2143    1.1946   67.3046   90.0351   89.7339      0.0000         0.6255    1.0165
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0258    0.0314    1.0377    1.3070    1.0478      0.0000         0.0164    0.0255
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -1.2244    0.1674    0.4512)
 a2 = (   -0.3353   -0.2153   -0.8155)
 a3 = (    0.1235   -0.7265    0.5301)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -1.2520    0.1454    0.4497) (    0.0041    0.0143    0.0104)
 a2 = (   -0.3102   -0.2042   -0.8118) (    0.0216    0.0170    0.0153)
 a3 = (    0.1028   -0.7298    0.5293) (    0.0239    0.0256    0.0117)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  159.6823   75.4176   -1.2974    0.5152    1.0146    0.6412
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0010    0.0000      0.0029    0.0029    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.7913         3.8115
# Chi-squares at the beginning and the end of the refinement
    0.4413    0.0491
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3   -4    0   -0.3787   -0.0271   -0.3948   -0.0985    0.0732    0
    2    0   -1   -1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1   -1    1   -0.4571    0.1843   -0.4653    0.1876    0.0089    1
    4    0    1    2    0.0077    0.1463    0.0088    0.1499    0.0038    1
    5   -2    1    4   -0.0560    0.0742   -0.0615    0.0665    0.0095    1
    6    0   -2   -1   -0.3676   -0.7777   -0.3626   -0.7930    0.0161    1
    7    3    2    2    0.1716    0.0579    0.1477    0.0591    0.0239    0
    8    4    1   -1    0.0818   -0.0180    0.0790   -0.0154    0.0038    1
    9    4   -1    1    0.7089   -0.0253    0.6879   -0.0069    0.0279    1
   10    1   -3   -2    0.1599   -0.7780    0.1845   -0.7818    0.0249    1
   11    1   -2   -3    0.0531   -0.1595    0.0532   -0.1549    0.0045    1
   12    3   -2   -2    0.3848   -0.2825    0.3747   -0.2907    0.0130    1
   13   -1   -3   -2   -0.2420   -0.2357   -0.2415   -0.2352    0.0006    1
   14   -1   -1    0   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    1    1    1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    1    2    3    0.0755    0.1210    0.0758    0.1206    0.0005    1
   17    1   -3   -3    0.0828   -0.4206    0.1219   -0.4292    0.0400    0
   18   -1   -4   -2   -0.4065   -0.3764   -0.4045   -0.3765    0.0021    1
   19    1   -1   -1    0.3307   -0.3622    0.3388   -0.3445    0.0195    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3   -4    0   -0.3783   -0.0277   -0.3948   -0.0985    0.0727    0
    2    0   -1   -1   -0.0647   -0.2872   -0.0649   -0.2885    0.0013    1
    3   -1   -1    1   -0.4613    0.1866   -0.4653    0.1876    0.0042    1
    4    0    1    2    0.0086    0.1488    0.0088    0.1499    0.0012    1
    5   -2    1    4   -0.0581    0.0762   -0.0615    0.0665    0.0103    1
    6    0   -2   -1   -0.3630   -0.7956   -0.3626   -0.7930    0.0026    1
    7    3    2    2    0.1675    0.0588    0.1477    0.0591    0.0198    0
    8    4    1   -1    0.0803   -0.0155    0.0790   -0.0154    0.0013    1
    9    4   -1    1    0.6825   -0.0073    0.6879   -0.0069    0.0054    1
   10    1   -3   -2    0.1845   -0.7785    0.1845   -0.7818    0.0033    1
   11    1   -2   -3    0.0535   -0.1573    0.0532   -0.1549    0.0024    1
   12    3   -2   -2    0.3875   -0.2667    0.3747   -0.2907    0.0272    0
   13   -1   -3   -2   -0.2412   -0.2333   -0.2415   -0.2352    0.0019    1
   14   -1   -1    0   -0.2321   -0.0077   -0.2334   -0.0072    0.0013    1
   15    1    1    1    0.0880    0.0490    0.0894    0.0482    0.0016    1
   16    1    2    3    0.0758    0.1211    0.0758    0.1206    0.0005    1
   17    1   -3   -3    0.0892   -0.4198    0.1219   -0.4292    0.0339    0
   18   -1   -4   -2   -0.4077   -0.3781   -0.4045   -0.3765    0.0036    1
   19    1   -1   -1    0.3383   -0.3492    0.3388   -0.3445    0.0048    1

###            No.18                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.7459    1.1732    1.2340  111.5994   94.6193   90.4618      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.7473    1.2143    1.1946  112.6954   90.0351   90.2661      0.0000         0.6255    1.0165
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0258    0.0314    1.0377    1.3070    1.0478      0.0000         0.0164    0.0255
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    1.2565   -0.1223   -0.4670)
 a2 = (   -0.2938   -0.2448   -0.8340)
 a3 = (   -0.0497    0.6867   -0.5402)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    1.2520   -0.1454   -0.4497) (    0.0041    0.0143    0.0104)
 a2 = (   -0.3102   -0.2042   -0.8118) (    0.0216    0.0170    0.0153)
 a3 = (   -0.1028    0.7298   -0.5293) (    0.0239    0.0256    0.0117)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -159.6823  104.5824  178.7026    0.5152    1.0146    0.6412
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0010    0.0000      0.0029    0.0029    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.6058         3.8115
# Chi-squares at the beginning and the end of the refinement
    1.9185    0.0491
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    3   -4    0   -0.3854   -0.0477   -0.3948   -0.0985    0.0517    0
    2    0   -1    1   -0.0773   -0.2951   -0.0649   -0.2885    0.0141    1
    3    1   -1   -1   -0.5042    0.1778   -0.4653    0.1876    0.0401    0
    4    0    1   -2    0.0180    0.1501    0.0088    0.1499    0.0092    1
    5    3    1   -5   -0.0574    0.0623   -0.0615    0.0665    0.0059    1
    6    0   -2    1   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7   -3    2   -2    0.1701    0.0598    0.1477    0.0591    0.0224    0
    8   -4    1    1    0.0893   -0.0155    0.0790   -0.0154    0.0103    1
    9   -3   -1    0    0.6237   -0.1098    0.6879   -0.0069    0.1212    0
   10   -1   -3    2    0.1724   -0.8102    0.1845   -0.7818    0.0308    1
   11   -2   -3    5    0.0601   -0.1410    0.0532   -0.1549    0.0156    1
   12   -3   -2    2    0.4146   -0.2817    0.3747   -0.2907    0.0409    0
   13    1   -3    2   -0.2403   -0.2340   -0.2415   -0.2352    0.0017    1
   14    1   -1    0   -0.2352   -0.0186   -0.2334   -0.0072    0.0116    1
   15   -1    1   -1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1    2   -3    0.0812    0.1162    0.0758    0.1206    0.0069    1
   17   -1   -3    3    0.0805   -0.4478    0.1219   -0.4292    0.0454    0
   18    1   -4    2   -0.4006   -0.3830   -0.4045   -0.3765    0.0076    1
   19   -1   -1    1    0.3607   -0.3754    0.3388   -0.3445    0.0379    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    3   -4    0   -0.3783   -0.0277   -0.3948   -0.0985    0.0727    0
    2    0   -1    1   -0.0647   -0.2872   -0.0649   -0.2885    0.0013    1
    3    1   -1   -1   -0.4613    0.1866   -0.4653    0.1876    0.0042    1
    4    0    1   -2    0.0086    0.1488    0.0088    0.1499    0.0012    1
    5    2    1   -4   -0.0581    0.0762   -0.0615    0.0665    0.0103    1
    6    0   -2    1   -0.3630   -0.7956   -0.3626   -0.7930    0.0026    1
    7   -3    2   -2    0.1675    0.0588    0.1477    0.0591    0.0198    0
    8   -4    1    1    0.0803   -0.0155    0.0790   -0.0154    0.0013    1
    9   -4   -1   -1    0.6825   -0.0073    0.6879   -0.0069    0.0054    1
   10   -1   -3    2    0.1845   -0.7785    0.1845   -0.7818    0.0033    1
   11   -1   -2    3    0.0535   -0.1573    0.0532   -0.1549    0.0024    1
   12   -3   -2    2    0.3875   -0.2667    0.3747   -0.2907    0.0272    0
   13    1   -3    2   -0.2412   -0.2333   -0.2415   -0.2352    0.0019    1
   14    1   -1    0   -0.2321   -0.0077   -0.2334   -0.0072    0.0013    1
   15   -1    1   -1    0.0880    0.0490    0.0894    0.0482    0.0016    1
   16   -1    2   -3    0.0758    0.1211    0.0758    0.1206    0.0005    1
   17   -1   -3    3    0.0892   -0.4198    0.1219   -0.4292    0.0339    0
   18    1   -4    2   -0.4077   -0.3781   -0.4045   -0.3765    0.0036    1
   19   -1   -1    1    0.3383   -0.3492    0.3388   -0.3445    0.0048    1

###            No.19                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.7434    1.1828    1.2341  112.7200   91.1201   91.5426      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.7473    1.1946    1.2143  112.6954   90.2661   90.0351      0.0000         0.6154    0.9838
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0314    0.0258    1.0377    1.0478    1.3070      0.0000         0.0131    0.0246
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -1.2608    0.1382    0.4518)
 a2 = (    0.0716   -0.7453    0.5298)
 a3 = (    0.2808    0.1855    0.8119)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -1.2520    0.1454    0.4497) (    0.0041    0.0143    0.0104)
 a2 = (    0.1028   -0.7298    0.5293) (    0.0239    0.0256    0.0117)
 a3 = (    0.3102    0.2042    0.8118) (    0.0216    0.0170    0.0153)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   29.9825   42.2552  150.2529    0.8476    0.9549    0.9113
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0010    0.0000      0.0029    0.0029    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.0661         3.8115
# Chi-squares at the beginning and the end of the refinement
    0.3837    0.0491
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3    0    4   -0.3840   -0.0256   -0.3948   -0.0985    0.0737    0
    2    0   -1    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1    1    1   -0.4647    0.2011   -0.4653    0.1876    0.0135    1
    4    0    2   -1    0.0121    0.1468    0.0088    0.1499    0.0045    1
    5   -2    4   -1   -0.0559    0.0762   -0.0615    0.0665    0.0112    1
    6    0   -1    2   -0.3607   -0.8216   -0.3626   -0.7930    0.0287    1
    7    3    2   -2    0.1684    0.0580    0.1477    0.0591    0.0207    0
    8    4   -1   -1    0.0828   -0.0171    0.0790   -0.0154    0.0041    1
    9    3    1    1    0.7850    0.0332    0.6879   -0.0069    0.1050    0
   10    1   -2    3    0.2015   -0.7846    0.1845   -0.7818    0.0173    1
   11    1   -3    2    0.0531   -0.1595    0.0532   -0.1549    0.0045    1
   12    3   -2    2    0.3914   -0.2649    0.3747   -0.2907    0.0308    0
   13   -1   -2    3   -0.2420   -0.2357   -0.2415   -0.2352    0.0006    1
   14   -1    0    1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    1    1   -1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    1    3   -2    0.0773    0.1187    0.0758    0.1206    0.0024    1
   17    1   -3    3    0.0914   -0.4232    0.1219   -0.4292    0.0311    0
   18   -1   -2    4   -0.4135   -0.3865   -0.4045   -0.3765    0.0135    1
   19    1   -1    1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3    0    4   -0.3783   -0.0277   -0.3948   -0.0985    0.0727    0
    2    0   -1    1   -0.0647   -0.2872   -0.0649   -0.2885    0.0013    1
    3   -1    1    1   -0.4613    0.1866   -0.4653    0.1876    0.0042    1
    4    0    2   -1    0.0086    0.1488    0.0088    0.1499    0.0012    1
    5   -2    4   -1   -0.0581    0.0762   -0.0615    0.0665    0.0103    1
    6    0   -1    2   -0.3630   -0.7956   -0.3626   -0.7930    0.0026    1
    7    3    2   -2    0.1675    0.0588    0.1477    0.0591    0.0198    0
    8    4   -1   -1    0.0803   -0.0155    0.0790   -0.0154    0.0013    1
    9    4    1    1    0.6825   -0.0073    0.6879   -0.0069    0.0054    1
   10    1   -2    3    0.1845   -0.7785    0.1845   -0.7818    0.0033    1
   11    1   -3    2    0.0535   -0.1573    0.0532   -0.1549    0.0024    1
   12    3   -2    2    0.3875   -0.2667    0.3747   -0.2907    0.0272    0
   13   -1   -2    3   -0.2412   -0.2333   -0.2415   -0.2352    0.0019    1
   14   -1    0    1   -0.2321   -0.0077   -0.2334   -0.0072    0.0013    1
   15    1    1   -1    0.0880    0.0490    0.0894    0.0482    0.0016    1
   16    1    3   -2    0.0758    0.1211    0.0758    0.1206    0.0005    1
   17    1   -3    3    0.0892   -0.4198    0.1219   -0.4292    0.0339    0
   18   -1   -2    4   -0.4077   -0.3781   -0.4045   -0.3765    0.0036    1
   19    1   -1    1    0.3383   -0.3492    0.3388   -0.3445    0.0048    1

###            No.20                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.7454    1.2011    1.2154   66.7833   89.5438   89.8993      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.7473    1.2143    1.1946   67.3046   89.9649   90.2661      0.0000         0.6255    1.0165
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0258    0.0314    1.0377    1.3070    1.0478      0.0000         0.0164    0.0255
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -1.2562    0.1377    0.4502)
 a2 = (    0.3165    0.2206    0.8197)
 a3 = (   -0.1080    0.7070   -0.5386)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -1.2520    0.1454    0.4497) (    0.0041    0.0143    0.0104)
 a2 = (    0.3102    0.2042    0.8118) (    0.0216    0.0170    0.0153)
 a3 = (   -0.1028    0.7298   -0.5293) (    0.0239    0.0256    0.0117)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   20.3177  104.5824  178.7026    0.5152    1.0146    0.6412
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0010    0.0000      0.0029    0.0029    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         3.5688         3.8115
# Chi-squares at the beginning and the end of the refinement
    0.2392    0.0491
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3    4    0   -0.3797   -0.0354   -0.3948   -0.0985    0.0649    0
    2    0    1    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1    1   -1   -0.4749    0.1763   -0.4653    0.1876    0.0148    1
    4    0   -1   -2    0.0097    0.1570    0.0088    0.1499    0.0071    1
    5   -2   -1   -4   -0.0636    0.0804   -0.0615    0.0665    0.0140    1
    6    0    2    1   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    3   -2   -2    0.1684    0.0580    0.1477    0.0591    0.0207    0
    8    4   -1    1    0.0784   -0.0149    0.0790   -0.0154    0.0008    1
    9    4    1   -1    0.6866   -0.0096    0.6879   -0.0069    0.0030    1
   10    1    3    2    0.1851   -0.7840    0.1845   -0.7818    0.0023    1
   11    1    2    3    0.0548   -0.1563    0.0532   -0.1549    0.0021    1
   12    3    2    2    0.3914   -0.2649    0.3747   -0.2907    0.0308    0
   13   -1    3    2   -0.2403   -0.2340   -0.2415   -0.2352    0.0017    1
   14   -1    1    0   -0.2343   -0.0123   -0.2334   -0.0072    0.0053    1
   15    1   -1   -1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    1   -2   -3    0.0802    0.1242    0.0758    0.1206    0.0057    1
   17    1    3    3    0.0914   -0.4232    0.1219   -0.4292    0.0311    0
   18   -1    4    2   -0.4048   -0.3789   -0.4045   -0.3765    0.0024    1
   19    1    1    1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3    4    0   -0.3783   -0.0277   -0.3948   -0.0985    0.0727    0
    2    0    1    1   -0.0647   -0.2872   -0.0649   -0.2885    0.0013    1
    3   -1    1   -1   -0.4613    0.1866   -0.4653    0.1876    0.0042    1
    4    0   -1   -2    0.0086    0.1488    0.0088    0.1499    0.0012    1
    5   -2   -1   -4   -0.0581    0.0762   -0.0615    0.0665    0.0103    1
    6    0    2    1   -0.3630   -0.7956   -0.3626   -0.7930    0.0026    1
    7    3   -2   -2    0.1675    0.0588    0.1477    0.0591    0.0198    0
    8    4   -1    1    0.0803   -0.0155    0.0790   -0.0154    0.0013    1
    9    4    1   -1    0.6825   -0.0073    0.6879   -0.0069    0.0054    1
   10    1    3    2    0.1845   -0.7785    0.1845   -0.7818    0.0033    1
   11    1    2    3    0.0535   -0.1573    0.0532   -0.1549    0.0024    1
   12    3    2    2    0.3875   -0.2667    0.3747   -0.2907    0.0272    0
   13   -1    3    2   -0.2412   -0.2333   -0.2415   -0.2352    0.0019    1
   14   -1    1    0   -0.2321   -0.0077   -0.2334   -0.0072    0.0013    1
   15    1   -1   -1    0.0880    0.0490    0.0894    0.0482    0.0016    1
   16    1   -2   -3    0.0758    0.1211    0.0758    0.1206    0.0005    1
   17    1    3    3    0.0892   -0.4198    0.1219   -0.4292    0.0339    0
   18   -1    4    2   -0.4077   -0.3781   -0.4045   -0.3765    0.0036    1
   19    1    1    1    0.3383   -0.3492    0.3388   -0.3445    0.0048    1

###            No.21                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.7516    1.1966    1.2221  114.5001   90.9175   90.3297      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.7473    1.1946    1.2143  112.6954   89.7339   89.9649      0.0000         0.6154    0.9838
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0001    0.0314    0.0258    1.0377    1.0478    1.3070      0.0000         0.0131    0.0246
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -1.2461    0.1366    0.4466)
 a2 = (   -0.1250    0.7350   -0.5363)
 a3 = (   -0.3318   -0.1851   -0.8152)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -1.2520    0.1454    0.4497) (    0.0041    0.0143    0.0104)
 a2 = (   -0.1028    0.7298   -0.5293) (    0.0239    0.0256    0.0117)
 a3 = (   -0.3102   -0.2042   -0.8118) (    0.0216    0.0170    0.0153)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  150.0175  137.7448  -29.7471    0.8476    0.9549    0.9113
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0010    0.0000      0.0029    0.0029    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         3.1006         3.8115
# Chi-squares at the beginning and the end of the refinement
    0.2760    0.0491
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    1   -4   -0.4482   -0.1458   -0.3948   -0.0985    0.0713    0
    2    0    1   -1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1   -1   -1   -0.4571    0.1843   -0.4653    0.1876    0.0089    1
    4    0   -2    1    0.0077    0.1552    0.0088    0.1499    0.0054    1
    5   -2   -4    1   -0.0624    0.0797   -0.0615    0.0665    0.0132    1
    6    0    1   -2   -0.3899   -0.7999   -0.3626   -0.7930    0.0282    1
    7    3   -2    2    0.1684    0.0580    0.1477    0.0591    0.0207    0
    8    4    1    1    0.0768   -0.0155    0.0790   -0.0154    0.0022    1
    9    4   -1   -1    0.6930    0.0005    0.6879   -0.0069    0.0091    1
   10    1    2   -3    0.1850   -0.7988    0.1845   -0.7818    0.0170    1
   11    1    3   -2    0.0542   -0.1534    0.0532   -0.1549    0.0018    1
   12    3    2   -2    0.3914   -0.2649    0.3747   -0.2907    0.0308    0
   13   -1    2   -3   -0.2449   -0.2322   -0.2415   -0.2352    0.0045    1
   14   -1    0   -1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    1   -1    1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    1   -3    2    0.0786    0.1249    0.0758    0.1206    0.0051    1
   17    2    5   -5    0.1289   -0.4308    0.1219   -0.4292    0.0072    1
   18   -1    2   -4   -0.4172   -0.3723   -0.4045   -0.3765    0.0134    1
   19    1    1   -1    0.3432   -0.3490    0.3388   -0.3445    0.0063    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3    0   -4   -0.3783   -0.0277   -0.3948   -0.0985    0.0727    0
    2    0    1   -1   -0.0647   -0.2872   -0.0649   -0.2885    0.0013    1
    3   -1   -1   -1   -0.4613    0.1866   -0.4653    0.1876    0.0042    1
    4    0   -2    1    0.0086    0.1488    0.0088    0.1499    0.0012    1
    5   -2   -4    1   -0.0581    0.0762   -0.0615    0.0665    0.0103    1
    6    0    1   -2   -0.3630   -0.7956   -0.3626   -0.7930    0.0026    1
    7    3   -2    2    0.1675    0.0588    0.1477    0.0591    0.0198    0
    8    4    1    1    0.0803   -0.0155    0.0790   -0.0154    0.0013    1
    9    4   -1   -1    0.6825   -0.0073    0.6879   -0.0069    0.0054    1
   10    1    2   -3    0.1845   -0.7785    0.1845   -0.7818    0.0033    1
   11    1    3   -2    0.0535   -0.1573    0.0532   -0.1549    0.0024    1
   12    3    2   -2    0.3875   -0.2667    0.3747   -0.2907    0.0272    0
   13   -1    2   -3   -0.2412   -0.2333   -0.2415   -0.2352    0.0019    1
   14   -1    0   -1   -0.2321   -0.0077   -0.2334   -0.0072    0.0013    1
   15    1   -1    1    0.0880    0.0490    0.0894    0.0482    0.0016    1
   16    1   -3    2    0.0758    0.1211    0.0758    0.1206    0.0005    1
   17    1    3   -3    0.0892   -0.4198    0.1219   -0.4292    0.0339    0
   18   -1    2   -4   -0.4077   -0.3781   -0.4045   -0.3765    0.0036    1
   19    1    1   -1    0.3383   -0.3492    0.3388   -0.3445    0.0048    1

###            No.23                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.9803    1.0216    1.0938   66.4322   89.6000   85.1330      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.9553    1.0312    1.0720   71.2699   90.4588   89.5950      0.0000         0.8911    0.9620
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0005    0.0221    0.0318    1.3056    1.6218    2.2104      0.0000         0.0265    0.0204
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.2680   -0.4324    0.8890)
 a2 = (    0.2252    1.0018    0.3087)
 a3 = (   -0.9418   -0.2732    0.1850)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.2851   -0.3550    0.9427) (    0.0275    0.0350    0.0145)
 a2 = (    0.2144    0.9599    0.2850) (    0.0120    0.0197    0.0098)
 a3 = (   -0.9397   -0.1938    0.2230) (    0.0286    0.0200    0.0093)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   72.2930   70.9587  -96.8532    2.0431    1.4365    0.8706
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0016   -0.0049    0.0000      0.0031    0.0026    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.1886         3.3901
# Chi-squares at the beginning and the end of the refinement
    1.7293    0.2626
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    1   -3   -0.3987   -0.1064   -0.3948   -0.0985    0.0087    1
    2    0    1    0   -0.0660   -0.2934   -0.0649   -0.2885    0.0050    1
    3    3   -1   -3   -0.4456    0.1936   -0.4653    0.1876    0.0207    1
    4    2   -4    1    0.0338    0.1329    0.0088    0.1499    0.0302    0
    5    2   -3   -3   -0.0482    0.0548   -0.0615    0.0665    0.0177    0
    6    1    2    0   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    0    0    1    0.1812    0.0526    0.1477    0.0591    0.0341    0
    8   -1    1    5    0.0725   -0.0010    0.0790   -0.0154    0.0158    1
    9    1    2    5    0.6077   -0.0312    0.6879   -0.0069    0.0838    0
   10    1    4    2    0.1841   -0.7801    0.1845   -0.7818    0.0018    1
   11   -1    4    2    0.0536   -0.1667    0.0532   -0.1549    0.0118    1
   12    0    4    5    0.3830   -0.2656    0.3747   -0.2907    0.0265    0
   13    1    3   -2   -0.2305   -0.2544   -0.2415   -0.2352    0.0221    0
   14    1    0   -2   -0.2405   -0.0128   -0.2334   -0.0072    0.0091    1
   15    0   -1    4    0.0847    0.0444    0.0894    0.0482    0.0061    1
   16    1   -2    1    0.0596    0.1437    0.0758    0.1206    0.0283    0
   17    0    2    1    0.1219   -0.4292    0.1219   -0.4292    0.0000    1
   18    2    3   -2   -0.4300   -0.3733   -0.4045   -0.3765    0.0257    0
   19    0    1    1    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    1   -3   -0.3972   -0.0961   -0.3948   -0.0985    0.0034    1
    2    0    1    0   -0.0648   -0.2877   -0.0649   -0.2885    0.0008    1
    3    3   -1   -3   -0.4630    0.1876   -0.4653    0.1876    0.0023    1
    4    1   -2    0    0.0087    0.1583    0.0088    0.1499    0.0084    1
    5    2   -3   -3   -0.0615    0.0607   -0.0615    0.0665    0.0059    1
    6    1    2    0   -0.3667   -0.8051   -0.3626   -0.7930    0.0128    1
    7    0   -1    5    0.1448    0.0526    0.1477    0.0591    0.0071    1
    8   -1    1    5    0.0938   -0.0118    0.0790   -0.0154    0.0152    1
    9    1    1    4    0.6470    0.0290    0.6879   -0.0069    0.0545    0
   10    1    4    2    0.1822   -0.7777    0.1845   -0.7818    0.0047    1
   11   -1    4    2    0.0503   -0.1561    0.0532   -0.1549    0.0031    1
   12    0    4    5    0.3751   -0.2864    0.3747   -0.2907    0.0043    1
   13    1    3   -2   -0.2335   -0.2454   -0.2415   -0.2352    0.0129    1
   14    1    0   -2   -0.2311   -0.0083   -0.2334   -0.0072    0.0026    1
   15    0   -1    3    0.0990    0.0463    0.0894    0.0482    0.0098    1
   16    1   -3    3    0.0959    0.1123    0.0758    0.1206    0.0217    0
   17    0    2    1    0.1234   -0.4273    0.1219   -0.4292    0.0024    1
   18    2    3   -2   -0.4422   -0.3692   -0.4045   -0.3765    0.0385    0
   19    0    1    1    0.3295   -0.3546    0.3388   -0.3445    0.0138    1

###            No.24                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.7782    0.8669    1.5143   81.6037   81.6796   89.5662      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.7709    0.8729    1.5122   80.6646   84.9754   90.3395      0.0000         0.5098    0.5772
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0019    0.0246    0.0396    1.4009    1.5280    1.8339      0.0000         0.0133    0.0121
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.3097   -0.6063    1.1060)
 a2 = (    1.0449   -0.2869   -0.4309)
 a3 = (    0.1419    0.6312    0.1913)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.3415   -0.5484    1.1309) (    0.0423    0.0282    0.0180)
 a2 = (    1.0336   -0.3050   -0.4326) (    0.0286    0.0139    0.0132)
 a3 = (    0.1425    0.6289    0.1923) (    0.0151    0.0154    0.0081)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  114.2109   72.1837  156.1491    1.9228    1.3833    0.7206
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
    0.0030    0.0035    0.0000      0.0061    0.0028    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.8224         3.3380
# Chi-squares at the beginning and the end of the refinement
    0.3327    0.1360
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    3    5   -0.3969   -0.0963   -0.3948   -0.0985    0.0031    1
    2    0    0    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    2    2    1   -0.4644    0.1882   -0.4653    0.1876    0.0011    1
    4    1    0   -4    0.0089    0.1081    0.0088    0.1499    0.0418    0
    5    2    3   -2   -0.0804    0.0773   -0.0615    0.0665    0.0217    0
    6    1    0    4   -0.3689   -0.8066   -0.3626   -0.7930    0.0150    1
    7    0   -4   -5    0.1342    0.0552    0.1477    0.0591    0.0140    1
    8   -1   -4   -1    0.0869   -0.0211    0.0790   -0.0154    0.0097    1
    9    1   -4   -1    0.6573    0.0147    0.6879   -0.0069    0.0375    0
   10    1   -2    6    0.1934   -0.7819    0.1845   -0.7818    0.0089    1
   11   -1   -2    6    0.0517   -0.1658    0.0532   -0.1549    0.0110    1
   12    0   -3    2    0.3780   -0.2815    0.3747   -0.2907    0.0098    1
   13    1    2    6   -0.2606   -0.2090   -0.2415   -0.2352    0.0324    0
   14    1    2    2   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    0   -2   -3    0.0897    0.0471    0.0894    0.0482    0.0012    1
   16    1   -1   -5    0.0592    0.1424    0.0758    0.1206    0.0274    0
   17    0   -1    3    0.1211   -0.4264    0.1219   -0.4292    0.0029    1
   18    1    1    4   -0.4355   -0.3697   -0.4045   -0.3765    0.0317    0
   19    0   -1    1    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    3    5   -0.3997   -0.0979   -0.3948   -0.0985    0.0049    1
    2    0    0    1   -0.0629   -0.2874   -0.0649   -0.2885    0.0022    1
    3    2    2    1   -0.4793    0.1832   -0.4653    0.1876    0.0146    1
    4    1    0   -4    0.0118    0.1208    0.0088    0.1499    0.0292    0
    5    2    3   -3   -0.0461    0.0605   -0.0615    0.0665    0.0166    1
    6    1    0    4   -0.3656   -0.7917   -0.3626   -0.7930    0.0032    1
    7    0   -4   -5    0.1400    0.0579    0.1477    0.0591    0.0078    1
    8   -1   -4   -1    0.0861   -0.0170    0.0790   -0.0154    0.0073    1
    9    1   -4   -1    0.6812   -0.0038    0.6879   -0.0069    0.0075    1
   10    1   -2    6    0.1804   -0.7778    0.1845   -0.7818    0.0058    1
   11   -1   -2    6    0.0546   -0.1604    0.0532   -0.1549    0.0057    1
   12    0   -3    2    0.3776   -0.2855    0.3747   -0.2907    0.0060    1
   13    1    2    6   -0.2619   -0.2087   -0.2415   -0.2352    0.0334    0
   14    1    2    2   -0.2381   -0.0054   -0.2334   -0.0072    0.0050    1
   15    0   -2   -3    0.0946    0.0503    0.0894    0.0482    0.0055    1
   16    1   -1   -5    0.0659    0.1551    0.0758    0.1206    0.0359    0
   17    0   -1    3    0.1214   -0.4245    0.1219   -0.4292    0.0047    1
   18    1    1    4   -0.4331   -0.3691   -0.4045   -0.3765    0.0296    0
   19    0   -1    1    0.3373   -0.3468    0.3388   -0.3445    0.0028    1

###            No.25                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.7471    0.9604    1.4700   71.5104   89.2808   88.7595      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.7528    0.9490    1.4802   71.0220   89.9913   90.0763      0.0000         0.5086    0.6412
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0000    0.0251    0.0432    1.2735    1.3852    1.2671      0.0000         0.0148    0.0169
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -1.2638    0.1283    0.4230)
 a2 = (    0.3759    0.1062    1.0263)
 a3 = (   -0.0297    0.6510   -0.2998)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -1.2435    0.1403    0.4458) (    0.0037    0.0170    0.0086)
 a2 = (    0.3842    0.1197    1.0390) (    0.0339    0.0240    0.0219)
 a3 = (   -0.0379    0.6429   -0.3093) (    0.0182    0.0221    0.0094)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   19.8013   97.8750  176.3880    0.4103    1.1707    0.7797
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0000   -0.0000    0.0000      0.0033    0.0033    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.8907         3.3046
# Chi-squares at the beginning and the end of the refinement
    0.4805    0.1019
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2    3    2   -0.3971   -0.1506   -0.3948   -0.0985    0.0521    0
    2    0    1    2   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1    1   -1   -0.4653    0.1876   -0.4653    0.1876    0.0000    1
    4    0   -1   -5    0.0095    0.1400    0.0088    0.1499    0.0100    1
    5   -1    0   -2   -0.0615    0.0665   -0.0615    0.0665    0.0000    1
    6    0    1    1   -0.3629   -0.7936   -0.3626   -0.7930    0.0006    1
    7    2   -1   -2    0.1266    0.0513    0.1477    0.0591    0.0225    0
    8    4   -1    1    0.0646   -0.0125    0.0790   -0.0154    0.0148    1
    9    4    1   -1    0.6490    0.0044    0.6879   -0.0069    0.0405    0
   10    2    4    5    0.2399   -0.8056    0.1845   -0.7818    0.0603    0
   11    1    2    6    0.0252   -0.1553    0.0532   -0.1549    0.0279    0
   12    2    1    2    0.3673   -0.2766    0.3747   -0.2907    0.0160    1
   13   -2    4    5   -0.2551   -0.2249   -0.2415   -0.2352    0.0171    1
   14   -3    2   -1   -0.2295    0.0413   -0.2334   -0.0072    0.0486    0
   15    3   -2   -4    0.0721    0.0396    0.0894    0.0482    0.0194    0
   16    1   -1   -3    0.0748    0.0932    0.0758    0.1206    0.0274    0
   17    2    3    6    0.1486   -0.4221    0.1219   -0.4292    0.0277    0
   18   -1    3    3   -0.4087   -0.3805   -0.4045   -0.3765    0.0058    1
   19    3    2    4    0.3315   -0.3360    0.3388   -0.3445    0.0112    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3    4    2   -0.3972   -0.1028   -0.3948   -0.0985    0.0049    1
    2    0    1    2   -0.0627   -0.2854   -0.0649   -0.2885    0.0037    1
    3   -1    1   -1   -0.4677    0.1863   -0.4653    0.1876    0.0027    1
    4    0   -1   -5    0.0089    0.1516    0.0088    0.1499    0.0017    1
    5   -1    0   -2   -0.0604    0.0653   -0.0615    0.0665    0.0017    1
    6    0    1    1   -0.3603   -0.7933   -0.3626   -0.7930    0.0024    1
    7    2   -1   -2    0.1450    0.0583    0.1477    0.0591    0.0028    1
    8    4   -1    1    0.0774   -0.0156    0.0790   -0.0154    0.0016    1
    9    4    1   -1    0.6879   -0.0057    0.6879   -0.0069    0.0012    1
   10    2    4    5    0.2334   -0.8141    0.1845   -0.7818    0.0586    0
   11    1    2    6    0.0254   -0.1535    0.0532   -0.1549    0.0278    0
   12    2    1    2    0.3766   -0.2915    0.3747   -0.2907    0.0021    1
   13   -2    4    5   -0.2500   -0.2226   -0.2415   -0.2352    0.0153    1
   14   -3    2   -1   -0.2241    0.0407   -0.2334   -0.0072    0.0488    0
   15    3   -2   -4    0.0876    0.0482    0.0894    0.0482    0.0018    1
   16    1   -1   -3    0.0853    0.1076    0.0758    0.1206    0.0161    1
   17    2    3    6    0.1483   -0.4273    0.1219   -0.4292    0.0265    0
   18   -1    3    3   -0.4052   -0.3812   -0.4045   -0.3765    0.0048    1
   19    3    2    4    0.3368   -0.3496    0.3388   -0.3445    0.0055    1

###            No.27                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.6688    1.2321    1.2708   72.8675   89.1582   87.8812      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.6656    1.2518    1.2515   73.5572   89.2238   89.2664      0.0000         0.5319    1.0003
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0003    0.0260    0.0290    1.6447    1.7669    1.7657      0.0000         0.0123    0.0159
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.4277    0.5197   -1.3363)
 a2 = (    0.5415   -0.5505   -0.3549)
 a3 = (   -0.7211   -0.3888    0.0832)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.4181    0.5248   -1.3444) (    0.0425    0.0337    0.0174)
 a2 = (    0.5196   -0.5400   -0.3637) (    0.0200    0.0141    0.0112)
 a3 = (   -0.7295   -0.3940    0.0827) (    0.0221    0.0108    0.0068)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -116.4426   92.1510  -47.1446    1.5202    1.5729    1.1159
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0002    0.0009    0.0000      0.0034    0.0028    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.2272         3.1967
# Chi-squares at the beginning and the end of the refinement
    0.7134    0.0869
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1    0   -3   -0.3948   -0.0985   -0.3948   -0.0985    0.0000    1
    2    0   -1   -1   -0.0533   -0.2790   -0.0649   -0.2885    0.0149    1
    3   -1    1   -1   -0.4571    0.1843   -0.4653    0.1876    0.0089    1
    4   -1    3    3    0.0052    0.1560    0.0088    0.1499    0.0071    1
    5   -1    3    0   -0.0624    0.0661   -0.0615    0.0665    0.0010    1
    6   -1   -3   -3   -0.3345   -0.7954   -0.3626   -0.7930    0.0282    1
    7    0   -1    6    0.1548    0.0567    0.1477    0.0591    0.0075    1
    8    1   -4    4    0.0727   -0.0155    0.0790   -0.0154    0.0063    1
    9   -1   -4    4    0.6678   -0.0184    0.6879   -0.0069    0.0232    1
   10   -1   -6   -3    0.1320   -0.7922    0.1845   -0.7818    0.0536    0
   11    1   -6   -2    0.0535   -0.1102    0.0532   -0.1549    0.0447    0
   12    0   -6    1    0.3622   -0.2659    0.3747   -0.2907    0.0278    0
   13   -1   -2   -6   -0.2584   -0.2052   -0.2415   -0.2352    0.0345    0
   14   -1    1   -3   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    0    0    1    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1    3    6    0.0689    0.1364    0.0758    0.1206    0.0173    1
   17    0   -5   -2    0.1447   -0.4037    0.1219   -0.4292    0.0342    0
   18   -1   -2   -4   -0.4006   -0.3839   -0.4045   -0.3765    0.0084    1
   19    0   -1    0    0.3223   -0.3277    0.3388   -0.3445    0.0235    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1    0   -3   -0.3957   -0.0988   -0.3948   -0.0985    0.0010    1
    2    0   -1   -1   -0.0646   -0.2855   -0.0649   -0.2885    0.0030    1
    3   -1    1   -1   -0.4638    0.1875   -0.4653    0.1876    0.0015    1
    4   -1    3    3    0.0093    0.1510    0.0088    0.1499    0.0012    1
    5   -1    3    0   -0.0591    0.0648   -0.0615    0.0665    0.0030    1
    6   -1   -3   -3   -0.3650   -0.7919   -0.3626   -0.7930    0.0026    1
    7    0   -1    6    0.1540    0.0583    0.1477    0.0591    0.0063    1
    8    1   -4    4    0.0779   -0.0151    0.0790   -0.0154    0.0011    1
    9   -1   -4    4    0.6833   -0.0079    0.6879   -0.0069    0.0048    1
   10   -1   -6   -3    0.1083   -0.8261    0.1845   -0.7818    0.0881    0
   11    1   -6   -2    0.0555   -0.1213    0.0532   -0.1549    0.0337    0
   12    0   -6    1    0.3803   -0.2805    0.3747   -0.2907    0.0116    1
   13   -1   -2   -6   -0.2618   -0.2024   -0.2415   -0.2352    0.0386    0
   14   -1    1   -3   -0.2343   -0.0079   -0.2334   -0.0072    0.0012    1
   15    0    0    1    0.0875    0.0483    0.0894    0.0482    0.0019    1
   16   -1    3    6    0.0687    0.1304    0.0758    0.1206    0.0121    1
   17    0   -5   -2    0.1397   -0.4273    0.1219   -0.4292    0.0179    1
   18   -1   -2   -4   -0.4076   -0.3771   -0.4045   -0.3765    0.0031    1
   19    0   -1    0    0.3363   -0.3488    0.3388   -0.3445    0.0050    1

###            No.28                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.6034    1.2149    1.3661   89.5668   87.2517   88.6063      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.6063    1.2104    1.3628   90.1923   89.9036   91.0725      0.0000         0.4449    0.8882
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0003    0.0251    0.0329    1.7708    0.9413    1.6349      0.0000         0.0107    0.0246
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.3491   -1.5527   -0.4706)
 a2 = (    0.2427   -0.2586    0.7431)
 a3 = (   -0.6777    0.1124    0.2553)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.3432   -1.5453   -0.4640) (    0.0191    0.0052    0.0131)
 a2 = (    0.2290   -0.2894    0.7393) (    0.0257    0.0191    0.0145)
 a3 = (   -0.6865    0.0797    0.2466) (    0.0171    0.0077    0.0069)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -17.3535   70.5759  -96.5887    0.5303    1.5183    0.9809
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0011    0.0016    0.0000      0.0033    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.8731         3.1901
# Chi-squares at the beginning and the end of the refinement
    0.6182    0.0944
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1    2   -3   -0.3921   -0.0954   -0.3948   -0.0985    0.0041    1
    2   -1    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0    1   -1   -0.4559    0.1838   -0.4653    0.1876    0.0102    1
    4    1    1    0    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5    1    2   -3   -0.0516    0.0573   -0.0615    0.0665    0.0136    1
    6   -1    1    0   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7    1    0    4    0.1592    0.0574    0.1477    0.0591    0.0117    1
    8    0   -1    4    0.0890   -0.0213    0.0790   -0.0154    0.0116    1
    9    0    1    4    0.7105   -0.0550    0.6879   -0.0069    0.0531    0
   10   -2    1    3    0.2362   -0.6884    0.1845   -0.7818    0.1067    0
   11   -2   -1    2    0.0466   -0.1858    0.0532   -0.1549    0.0315    0
   12   -1    0    4    0.3674   -0.3115    0.3747   -0.2907    0.0220    1
   13   -2    1   -2   -0.2219   -0.2533   -0.2415   -0.2352    0.0267    0
   14   -1    3   -6   -0.2270   -0.0045   -0.2334   -0.0072    0.0069    1
   15    1    0    3    0.0983    0.0502    0.0894    0.0482    0.0091    1
   16    3    2    3    0.0723    0.1349    0.0758    0.1206    0.0147    1
   17   -1    0    1    0.0828   -0.4196    0.1219   -0.4292    0.0402    0
   18   -1    1   -1   -0.4045   -0.3765   -0.4045   -0.3765    0.0000    1
   19   -1    0    3    0.3249   -0.3646    0.3388   -0.3445    0.0245    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -1    2   -3   -0.3960   -0.0989   -0.3948   -0.0985    0.0013    1
    2   -1    0    0   -0.0646   -0.2846   -0.0649   -0.2885    0.0039    1
    3    0    1   -1   -0.4641    0.1882   -0.4653    0.1876    0.0014    1
    4    1    1    0    0.0082    0.1511    0.0088    0.1499    0.0013    1
    5    1    2   -3   -0.0591    0.0646   -0.0615    0.0665    0.0032    1
    6   -1    1    0   -0.3626   -0.7919   -0.3626   -0.7930    0.0011    1
    7    1    0    4    0.1450    0.0596    0.1477    0.0591    0.0027    1
    8    0   -1    4    0.0786   -0.0147    0.0790   -0.0154    0.0008    1
    9    0    1    4    0.6844   -0.0064    0.6879   -0.0069    0.0036    1
   10   -2    1    2    0.1091   -0.7112    0.1845   -0.7818    0.1033    0
   11   -2   -1    2    0.0456   -0.1790    0.0532   -0.1549    0.0252    0
   12   -1    0    4    0.3757   -0.2907    0.3747   -0.2907    0.0010    1
   13   -2    1   -2   -0.2210   -0.2523   -0.2415   -0.2352    0.0267    0
   14   -1    3   -6   -0.2343   -0.0074   -0.2334   -0.0072    0.0009    1
   15    1    0    3    0.0875    0.0497    0.0894    0.0482    0.0024    1
   16    2    1    3    0.0845    0.1084    0.0758    0.1206    0.0150    1
   17   -1    0    1    0.0874   -0.4170    0.1219   -0.4292    0.0366    0
   18   -1    1   -1   -0.4069   -0.3776   -0.4045   -0.3765    0.0026    1
   19   -1    0    3    0.3360   -0.3488    0.3388   -0.3445    0.0052    1

###            No.29                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.0752    1.0989    1.1204   91.9885  118.2506  115.8306      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.0581    1.1182    1.1313   90.1780  118.5017  117.4652      0.0000         0.9353    0.9884
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0143    0.0398    0.0347    1.2808    1.3303    1.6134      0.0000         0.0290    0.0405
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -1.0071    0.4305   -0.5609)
 a2 = (   -0.9351   -0.4901    0.1072)
 a3 = (   -0.6715    0.6827    0.4627)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -1.0512    0.4186   -0.5657) (    0.0096    0.0256    0.0098)
 a2 = (   -0.9206   -0.4985    0.1032) (    0.0284    0.0271    0.0103)
 a3 = (   -0.6586    0.6769    0.4584) (    0.0191    0.0224    0.0156)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -48.7376   36.5046 -159.2176    1.5040    1.2019    1.5200
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0005    0.0020    0.0000      0.0031    0.0049    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.2410         3.1801
# Chi-squares at the beginning and the end of the refinement
    0.5401    0.0138
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -2    1   -0.4014   -0.1002   -0.3948   -0.0985    0.0068    1
    2    0   -1    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1    0    0   -0.4709    0.2013   -0.4653    0.1876    0.0148    1
    4   -1    2   -1    0.0136    0.1482    0.0088    0.1499    0.0051    1
    5   -2    1   -2   -0.0555    0.0623   -0.0615    0.0665    0.0073    1
    6   -1   -1    2   -0.3458   -0.8223   -0.3626   -0.7930    0.0338    1
    7    0    4    1    0.1865    0.0540    0.1477    0.0591    0.0391    0
    8    2    1    3    0.0608   -0.0296    0.0790   -0.0154    0.0231    0
    9   -1    2    2    0.7706    0.0158    0.6879   -0.0069    0.0857    0
   10   -1   -1    4    0.2055   -0.7710    0.1845   -0.7818    0.0236    1
   11    1   -2    3    0.0531   -0.1595    0.0532   -0.1549    0.0045    1
   12    0    1    4    0.3910   -0.2420    0.3747   -0.2907    0.0514    0
   13   -1   -3    2   -0.2420   -0.2357   -0.2415   -0.2352    0.0006    1
   14   -1   -1    0   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    0    1    0    0.0900    0.0472    0.0894    0.0482    0.0012    1
   16   -1    4   -1    0.0794    0.1183    0.0758    0.1206    0.0042    1
   17    0   -2    5    0.1451   -0.4286    0.1219   -0.4292    0.0232    0
   18   -2   -3    3   -0.4111   -0.3894   -0.4045   -0.3765    0.0145    1
   19    0    0    1    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -2    1   -0.3959   -0.0988   -0.3948   -0.0985    0.0012    1
    2    0   -1    1   -0.0646   -0.2859   -0.0649   -0.2885    0.0026    1
    3   -1    0    0   -0.4650    0.1869   -0.4653    0.1876    0.0008    1
    4   -1    2   -1    0.0089    0.1513    0.0088    0.1499    0.0014    1
    5   -2    1   -2   -0.0594    0.0654   -0.0615    0.0665    0.0024    1
    6   -1   -1    2   -0.3639   -0.7940   -0.3626   -0.7930    0.0017    1
    7    0    4    1    0.1833    0.0578    0.1477    0.0591    0.0356    0
    8    2    1    3    0.0562   -0.0249    0.0790   -0.0154    0.0247    0
    9   -1    3    3    0.6094   -0.0173    0.6879   -0.0069    0.0792    0
   10   -1   -1    4    0.1848   -0.7776    0.1845   -0.7818    0.0042    1
   11    1   -2    3    0.0533   -0.1545    0.0532   -0.1549    0.0005    1
   12    0    1    4    0.3925   -0.2423    0.3747   -0.2907    0.0516    0
   13   -1   -3    2   -0.2416   -0.2329   -0.2415   -0.2352    0.0024    1
   14   -1   -1    0   -0.2346   -0.0075   -0.2334   -0.0072    0.0013    1
   15    0    1    0    0.0862    0.0489    0.0894    0.0482    0.0033    1
   16   -1    4   -1    0.0759    0.1216    0.0758    0.1206    0.0010    1
   17    0   -2    5    0.1416   -0.4269    0.1219   -0.4292    0.0199    1
   18   -2   -3    3   -0.4079   -0.3773   -0.4045   -0.3765    0.0035    1
   19    0    0    1    0.3380   -0.3459    0.3388   -0.3445    0.0017    1

###            No.30                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.0468    1.1082    1.1389   63.7089   63.6225   62.2464      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.0581    1.1212    1.1182   63.9980   62.5348   62.4674      0.0000         0.9463    1.0027
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0211    0.0293    0.0449    1.8767    1.6134    2.0504      0.0000         0.0282    0.0271
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.3782   -0.2613   -1.0341)
 a2 = (   -0.6744    0.6857    0.4647)
 a3 = (    0.8980    0.4842   -0.1138)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.3926   -0.2583   -1.0240) (    0.0229    0.0283    0.0094)
 a2 = (   -0.6586    0.6769    0.4584) (    0.0207    0.0191    0.0105)
 a3 = (    0.9206    0.4985   -0.1032) (    0.0283    0.0289    0.0101)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -80.7275  112.9442  146.0690    1.4450    1.2141    0.9202
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0005    0.0020    0.0000      0.0031    0.0049    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.2272         3.1801
# Chi-squares at the beginning and the end of the refinement
    0.6432    0.0138
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -1    2   -0.4014   -0.1002   -0.3948   -0.0985    0.0068    1
    2    0    1    1   -0.0553   -0.2894   -0.0649   -0.2885    0.0096    1
    3   -1   -1    0   -0.4653    0.1876   -0.4653    0.1876    0.0000    1
    4   -1   -2   -2    0.0053    0.1597    0.0088    0.1499    0.0104    1
    5   -2   -4   -1   -0.0597    0.0631   -0.0615    0.0665    0.0039    1
    6   -1    1    1   -0.3458   -0.8223   -0.3626   -0.7930    0.0338    1
    7    0    1   -5    0.1798    0.0604    0.1477    0.0591    0.0321    0
    8    1    2   -4    0.0643    0.0100    0.0790   -0.0154    0.0294    0
    9   -1    2   -3    0.6274   -0.0308    0.6879   -0.0069    0.0651    0
   10   -1    3    1    0.2055   -0.7710    0.1845   -0.7818    0.0236    1
   11    1    4    2    0.0564   -0.1521    0.0532   -0.1549    0.0043    1
   12    0    4   -1    0.3934   -0.2471    0.3747   -0.2907    0.0475    0
   13   -1    1    3   -0.2412   -0.2413   -0.2415   -0.2352    0.0061    1
   14   -1   -1    1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    0    0   -1    0.0981    0.0529    0.0894    0.0482    0.0099    1
   16   -1   -2   -4    0.0818    0.1336    0.0758    0.1206    0.0144    1
   17    0    2    1    0.1008   -0.4150    0.1219   -0.4292    0.0254    0
   18   -2    1    3   -0.4114   -0.3943   -0.4045   -0.3765    0.0192    1
   19    0    1    0    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -1    2   -0.3959   -0.0988   -0.3948   -0.0985    0.0012    1
    2    0    1    1   -0.0646   -0.2859   -0.0649   -0.2885    0.0026    1
    3   -1   -1    0   -0.4650    0.1869   -0.4653    0.1876    0.0008    1
    4   -1   -2   -2    0.0089    0.1513    0.0088    0.1499    0.0014    1
    5   -2   -4   -1   -0.0594    0.0654   -0.0615    0.0665    0.0024    1
    6   -1    1    1   -0.3639   -0.7940   -0.3626   -0.7930    0.0017    1
    7    0    1   -4    0.1833    0.0578    0.1477    0.0591    0.0356    0
    8    2    5   -1    0.0562   -0.0249    0.0790   -0.0154    0.0247    0
    9   -1    2   -3    0.6094   -0.0173    0.6879   -0.0069    0.0792    0
   10   -1    3    1    0.1848   -0.7776    0.1845   -0.7818    0.0042    1
   11    1    4    2    0.0533   -0.1545    0.0532   -0.1549    0.0005    1
   12    0    4   -1    0.3925   -0.2423    0.3747   -0.2907    0.0516    0
   13   -1    1    3   -0.2416   -0.2329   -0.2415   -0.2352    0.0024    1
   14   -1   -1    1   -0.2346   -0.0075   -0.2334   -0.0072    0.0013    1
   15    0    0   -1    0.0862    0.0489    0.0894    0.0482    0.0033    1
   16   -1   -2   -4    0.0759    0.1216    0.0758    0.1206    0.0010    1
   17    0    5    2    0.1416   -0.4269    0.1219   -0.4292    0.0199    1
   18   -2    1    3   -0.4079   -0.3773   -0.4045   -0.3765    0.0035    1
   19    0    1    0    0.3380   -0.3459    0.3388   -0.3445    0.0017    1

###            No.32                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.7590    0.8633    1.5285   88.8526   88.5760   87.4465      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.7484    0.8770    1.5241   89.0071   89.7441   88.9044      0.0000         0.4910    0.5754
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0004    0.0209    0.0331    1.6325    2.3187    1.4220      0.0000         0.0107    0.0179
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.2775    1.2343    0.3741)
 a2 = (    1.0775   -0.1788   -0.3898)
 a3 = (   -0.1929    0.2056   -0.5907)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.2879    1.2505    0.3737) (    0.0137    0.0042    0.0091)
 a2 = (    1.0617   -0.1517   -0.3883) (    0.0251    0.0249    0.0112)
 a3 = (   -0.1958    0.2177   -0.5873) (    0.0200    0.0226    0.0132)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  140.1654  154.1216 -139.8565    1.1111    0.4326    1.2088
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0004    0.0015    0.0000      0.0030    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.8857         3.0946
# Chi-squares at the beginning and the end of the refinement
    0.5339    0.3538
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    3   -4   -0.4020   -0.0979   -0.3948   -0.0985    0.0073    1
    2    1    0    0   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    0    1   -2   -0.4653    0.1876   -0.4653    0.1876    0.0000    1
    4   -1    0   -1    0.0088    0.1499    0.0088    0.1499    0.0000    1
    5   -2    3   -4   -0.0579    0.0642   -0.0615    0.0665    0.0044    1
    6    1    0   -1   -0.3547   -0.7757   -0.3626   -0.7930    0.0190    1
    7   -1   -2    0    0.1475    0.0532    0.1477    0.0591    0.0059    1
    8    0   -2    1    0.0761   -0.0182    0.0790   -0.0154    0.0041    1
    9    0   -2   -1    0.6942   -0.0537    0.6879   -0.0069    0.0472    0
   10    3   -2   -2    0.2035   -0.7927    0.1845   -0.7818    0.0218    1
   11    3   -2    2    0.0537   -0.1406    0.0532   -0.1549    0.0144    1
   12    1   -2    0    0.3575   -0.3031    0.3747   -0.2907    0.0212    1
   13    3    2   -2   -0.2572   -0.2237   -0.2415   -0.2352    0.0194    1
   14    1    3   -3   -0.2388   -0.0047   -0.2334   -0.0072    0.0060    1
   15   -2   -3    0    0.0882    0.0450    0.0894    0.0482    0.0034    1
   16   -3   -2   -2    0.1045    0.1509    0.0758    0.1206    0.0417    0
   17    3   -2    0    0.1379   -0.4234    0.1219   -0.4292    0.0170    1
   18    2    1   -2   -0.4087   -0.3805   -0.4045   -0.3765    0.0058    1
   19    2   -3    0    0.3170   -0.3557    0.3388   -0.3445    0.0246    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    3   -4   -0.3988   -0.1015   -0.3948   -0.0985    0.0050    1
    2    1    0    0   -0.0657   -0.2823   -0.0649   -0.2885    0.0063    1
    3    0    1   -2   -0.4655    0.1894   -0.4653    0.1876    0.0018    1
    4   -1    0   -1    0.0087    0.1465    0.0088    0.1499    0.0035    1
    5   -2    3   -4   -0.0571    0.0654   -0.0615    0.0665    0.0046    1
    6    1    0   -1   -0.3578   -0.7615   -0.3626   -0.7930    0.0318    1
    7   -1   -2    0    0.1444    0.0584    0.1477    0.0591    0.0034    1
    8    0   -2    1    0.0773   -0.0159    0.0790   -0.0154    0.0018    1
    9    0   -2   -1    0.7058   -0.0298    0.6879   -0.0069    0.0290    0
   10    3   -2   -2    0.1921   -0.8011    0.1845   -0.7818    0.0207    1
   11    3   -2    2    0.0518   -0.1403    0.0532   -0.1549    0.0147    1
   12    1   -2    0    0.3647   -0.3075    0.3747   -0.2907    0.0195    1
   13    3    2   -2   -0.2508   -0.2218   -0.2415   -0.2352    0.0164    1
   14    1    3   -3   -0.2391   -0.0069   -0.2334   -0.0072    0.0058    1
   15   -2   -3    0    0.0853    0.0481    0.0894    0.0482    0.0042    1
   16   -3   -2   -2    0.0984    0.1493    0.0758    0.1206    0.0365    0
   17    3   -2    0    0.1322   -0.4253    0.1219   -0.4292    0.0110    1
   18    2    1   -2   -0.4004   -0.3757   -0.4045   -0.3765    0.0042    1
   19    2   -3    0    0.3206   -0.3621    0.3388   -0.3445    0.0253    0

###            No.33                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.6007    1.0433    1.6043   87.3664   86.7796   85.5469      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.5927    1.0430    1.6212   86.3771   88.7277   89.9653      0.0000         0.3656    0.6433
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0004    0.0275    0.0385    1.9750    1.7315    2.8697      0.0000         0.0087    0.0170
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    1.5689   -0.1527   -0.5574)
 a2 = (    0.2145   -0.2759    0.8965)
 a3 = (   -0.1524   -0.5815   -0.1705)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    1.5833   -0.1340   -0.5682) (    0.0050    0.0177    0.0133)
 a2 = (    0.2940   -0.2573    0.8777) (    0.0506    0.0305    0.0222)
 a3 = (   -0.1252   -0.5807   -0.1711) (    0.0154    0.0139    0.0061)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  -20.2258  103.1171   -9.6172    0.4909    1.7669    0.8425
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0061   -0.0053    0.0000      0.0073    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.1335         3.0754
# Chi-squares at the beginning and the end of the refinement
    1.0888    0.2173
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    3   -4   -0.4787   -0.1300   -0.3948   -0.0985    0.0896    0
    2    0    0   -1   -0.0719   -0.2744   -0.0649   -0.2885    0.0157    1
    3    2    4    1   -0.4720    0.2445   -0.4653    0.1876    0.0572    0
    4    0    1    3    0.0226    0.1878    0.0088    0.1499    0.0403    0
    5    2    3    6   -0.0534    0.0862   -0.0615    0.0665    0.0212    0
    6    0    1   -3   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7   -2    0    3    0.1446    0.0579    0.1477    0.0591    0.0033    1
    8   -2   -1    0    0.0632   -0.0110    0.0790   -0.0154    0.0164    1
    9   -2    1    0    0.6879   -0.0069    0.6879   -0.0069    0.0000    1
   10   -1    1   -5    0.1687   -0.7925    0.1845   -0.7818    0.0191    1
   11   -1   -1   -5    0.0431   -0.1408    0.0532   -0.1549    0.0174    1
   12   -2    0   -3    0.3828   -0.2928    0.3747   -0.2907    0.0084    1
   13    1    1   -5   -0.2403   -0.2340   -0.2415   -0.2352    0.0017    1
   14    3    3   -2   -0.2401    0.0052   -0.2334   -0.0072    0.0141    1
   15   -1    0    2    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1    1    5    0.0931    0.1333    0.0758    0.1206    0.0215    0
   17   -1    0   -5    0.1136   -0.4308    0.1219   -0.4292    0.0084    1
   18    1    2   -6   -0.4052   -0.3874   -0.4045   -0.3765    0.0110    1
   19   -1    0   -2    0.3412   -0.3551    0.3388   -0.3445    0.0109    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    3   -3   -0.4492   -0.0757   -0.3948   -0.0985    0.0590    0
    2    0    0   -1   -0.0668   -0.2868   -0.0649   -0.2885    0.0026    1
    3    2    4    1   -0.4421    0.1888   -0.4653    0.1876    0.0233    1
    4    0    1    3    0.0013    0.1767    0.0088    0.1499    0.0278    0
    5    2    3    6   -0.0556    0.0626   -0.0615    0.0665    0.0071    1
    6    0    1   -3   -0.3570   -0.7837   -0.3626   -0.7930    0.0108    1
    7   -2    0    3    0.1439    0.0571    0.1477    0.0591    0.0043    1
    8   -2   -1    0    0.0670   -0.0164    0.0790   -0.0154    0.0121    1
    9   -2    1    0    0.6950   -0.0079    0.6879   -0.0069    0.0072    1
   10   -1    1   -5    0.1808   -0.7883    0.1845   -0.7818    0.0075    1
   11   -1   -1   -5    0.0489   -0.1500    0.0532   -0.1549    0.0065    1
   12   -2    0   -3    0.3830   -0.2856    0.3747   -0.2907    0.0098    1
   13    1    1   -5   -0.2379   -0.2380   -0.2415   -0.2352    0.0046    1
   14    1    1   -1   -0.2439   -0.0278   -0.2334   -0.0072    0.0232    0
   15   -1    0    2    0.0877    0.0473    0.0894    0.0482    0.0019    1
   16   -1    1    5    0.0821    0.1340    0.0758    0.1206    0.0148    1
   17   -1    0   -5    0.1283   -0.4315    0.1219   -0.4292    0.0068    1
   18    1    2   -6   -0.3962   -0.3838   -0.4045   -0.3765    0.0111    1
   19   -1    0   -2    0.3451   -0.3466    0.3388   -0.3445    0.0066    1

###            No.34                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.5021    1.2646    1.6812  108.6611   97.6476   91.2400      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.5038    1.3000    1.6602  111.0573   98.1562   92.0883      0.0000         0.3035    0.7831
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0020    0.0423    0.0490    1.7088    1.6018    1.4703      0.0000         0.0083    0.0170
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    1.8365    0.5839   -0.5860)
 a2 = (    0.2679   -0.7809   -0.1352)
 a3 = (   -0.0524   -0.1324   -0.6186)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    1.8430    0.5292   -0.6166) (    0.0093    0.0254    0.0171)
 a2 = (    0.2616   -0.7734   -0.1377) (    0.0178    0.0202    0.0072)
 a3 = (   -0.0465   -0.1612   -0.6327) (    0.0185    0.0141    0.0135)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -114.2666  160.3788  -99.5550    1.8090    0.4830    1.9042
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0004    0.0018    0.0000      0.0049    0.0028    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.2559         3.0612
# Chi-squares at the beginning and the end of the refinement
    0.2605    0.2821
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    1   -5   -0.4000   -0.0998   -0.3948   -0.0985    0.0054    1
    2    1   -4   -2   -0.0627   -0.2864   -0.0649   -0.2885    0.0030    1
    3    1    3   -4   -0.4387    0.1892   -0.4653    0.1876    0.0267    0
    4   -1    5   -1    0.0122    0.1201    0.0088    0.1499    0.0301    0
    5    1    6   -3   -0.0619    0.0636   -0.0615    0.0665    0.0029    1
    6    1   -2   -5   -0.4203   -0.7553   -0.3626   -0.7930    0.0689    0
    7   -2    0    1    0.1324    0.0462    0.1477    0.0591    0.0200    0
    8   -2   -3    2    0.0715   -0.0142    0.0790   -0.0154    0.0076    1
    9   -2   -1   -2    0.6626    0.0211    0.6879   -0.0069    0.0378    0
   10    0   -1   -1    0.1845   -0.7818    0.1845   -0.7818    0.0000    1
   11    0   -1    0    0.0532   -0.1549    0.0532   -0.1549    0.0000    1
   12   -1   -3   -1    0.4056   -0.2964    0.3747   -0.2907    0.0314    0
   13    1   -1   -2   -0.2412   -0.2349   -0.2415   -0.2352    0.0005    1
   14    1    1   -2   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15   -2    1    1    0.0888    0.0534    0.0894    0.0482    0.0052    1
   16   -1    2    0    0.0652    0.1075    0.0758    0.1206    0.0168    1
   17    0   -5   -2    0.1249   -0.4219    0.1219   -0.4292    0.0079    1
   18    1   -1   -3   -0.3986   -0.4070   -0.4045   -0.3765    0.0311    0
   19   -1   -4   -1    0.3259   -0.3050    0.3388   -0.3445    0.0416    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    1   -5   -0.4018   -0.1030   -0.3948   -0.0985    0.0083    1
    2    1   -4   -2   -0.0656   -0.2876   -0.0649   -0.2885    0.0012    1
    3    1    3   -4   -0.4579    0.1881   -0.4653    0.1876    0.0075    1
    4   -1    5   -1    0.0147    0.1324    0.0088    0.1499    0.0185    0
    5    1    6   -3   -0.0631    0.0658   -0.0615    0.0665    0.0017    1
    6    1   -2   -5   -0.4092   -0.7572   -0.3626   -0.7930    0.0587    0
    7   -2    0    1    0.1450    0.0493    0.1477    0.0591    0.0102    1
    8   -2   -3    2    0.0797   -0.0147    0.0790   -0.0154    0.0010    1
    9   -2   -1   -2    0.6835   -0.0049    0.6879   -0.0069    0.0049    1
   10    0   -1   -1    0.1798   -0.7811    0.1845   -0.7818    0.0048    1
   11    0   -1    0    0.0537   -0.1580    0.0532   -0.1549    0.0031    1
   12   -1   -3   -1    0.4093   -0.3081    0.3747   -0.2907    0.0387    0
   13    1   -1   -2   -0.2423   -0.2330   -0.2415   -0.2352    0.0024    1
   14    1    1   -2   -0.2326   -0.0065   -0.2334   -0.0072    0.0010    1
   15   -2    1    1    0.0999    0.0594    0.0894    0.0482    0.0153    1
   16   -1    2    0    0.0740    0.1188    0.0758    0.1206    0.0026    1
   17    0   -5   -2    0.1244   -0.4285    0.1219   -0.4292    0.0026    1
   18    1   -1   -3   -0.3973   -0.4103   -0.4045   -0.3765    0.0345    0
   19   -1   -4   -1    0.3296   -0.3146    0.3388   -0.3445    0.0313    0

###            No.35                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.0485    1.1216    1.1256   63.7813   62.9939   62.5054      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.0594    1.1344    1.1324   63.3887   61.2321   60.7921      0.0000         0.9355    1.0018
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0206    0.0376    0.0495    1.3368    1.2836    1.9577      0.0000         0.0291    0.0228
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.1361   -0.8881    0.6896)
 a2 = (    0.9208    0.4965   -0.1063)
 a3 = (   -0.6586    0.6696    0.4538)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.1217   -0.9258    0.6687) (    0.0316    0.0157    0.0207)
 a2 = (    0.9200    0.4983   -0.1052) (    0.0354    0.0190    0.0098)
 a3 = (   -0.6515    0.6829    0.4577) (    0.0255    0.0311    0.0182)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   79.3836   36.3238 -159.4162    1.8822    1.1828    1.5206
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0015    0.0006    0.0000      0.0030    0.0049    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.4355         3.0500
# Chi-squares at the beginning and the end of the refinement
    0.5993    0.1668
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    4    1   -0.3987   -0.1064   -0.3948   -0.0985    0.0087    1
    2    0    1    1   -0.0638   -0.2837   -0.0649   -0.2885    0.0049    1
    3    1    1    0   -0.4853    0.1798   -0.4653    0.1876    0.0215    1
    4    1   -1   -1    0.0102    0.1659    0.0088    0.1499    0.0161    1
    5    2    1   -2   -0.0697    0.0727   -0.0615    0.0665    0.0102    1
    6    1    2    2   -0.3626   -0.7930   -0.3626   -0.7930    0.0000    1
    7    0   -4    1    0.1854    0.0562    0.1477    0.0591    0.0378    0
    8   -2   -3    3    0.0497   -0.0228    0.0790   -0.0154    0.0303    0
    9    1   -2    3    0.6142   -0.0213    0.6879   -0.0069    0.0752    0
   10    1    2    4    0.1841   -0.7801    0.1845   -0.7818    0.0018    1
   11   -1    1    3    0.0521   -0.1484    0.0532   -0.1549    0.0067    1
   12    0   -1    4    0.3926   -0.2410    0.3747   -0.2907    0.0529    0
   13    1    4    2   -0.2404   -0.2341   -0.2415   -0.2352    0.0016    1
   14    1    2    0   -0.2405   -0.0128   -0.2334   -0.0072    0.0091    1
   15    0   -1    0    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    1   -3   -1    0.0830    0.1285    0.0758    0.1206    0.0106    1
   17    0    2    5    0.1425   -0.4261    0.1219   -0.4292    0.0208    1
   18    2    5    3   -0.4059   -0.3800   -0.4045   -0.3765    0.0038    1
   19    0    0    1    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2    4    1   -0.3965   -0.0990   -0.3948   -0.0985    0.0017    1
    2    0    1    1   -0.0660   -0.2831   -0.0649   -0.2885    0.0055    1
    3    1    1    0   -0.4645    0.1906   -0.4653    0.1876    0.0031    1
    4    1   -1   -1    0.0089    0.1499    0.0088    0.1499    0.0001    1
    5    2    1   -2   -0.0595    0.0645   -0.0615    0.0665    0.0029    1
    6    1    2    2   -0.3637   -0.7895   -0.3626   -0.7930    0.0037    1
    7    0   -4    1    0.1843    0.0568    0.1477    0.0591    0.0367    0
    8   -2   -3    3    0.0558   -0.0272    0.0790   -0.0154    0.0260    0
    9    1   -2    3    0.6109   -0.0205    0.6879   -0.0069    0.0782    0
   10    1    2    4    0.1769   -0.7751    0.1845   -0.7818    0.0102    1
   11   -1    1    3    0.0502   -0.1547    0.0532   -0.1549    0.0030    1
   12    0   -1    4    0.3903   -0.2476    0.3747   -0.2907    0.0459    0
   13    1    4    2   -0.2404   -0.2321   -0.2415   -0.2352    0.0033    1
   14    1    2    0   -0.2348   -0.0078   -0.2334   -0.0072    0.0016    1
   15    0   -1    0    0.0869    0.0485    0.0894    0.0482    0.0026    1
   16    1   -3   -1    0.0755    0.1209    0.0758    0.1206    0.0005    1
   17    0    2    5    0.1357   -0.4264    0.1219   -0.4292    0.0141    1
   18    2    5    3   -0.4067   -0.3765   -0.4045   -0.3765    0.0022    1
   19    0    0    1    0.3332   -0.3502    0.3388   -0.3445    0.0081    1

###            No.36                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.0741    1.0821    1.1216   64.4275   62.0557   65.2869      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.0594    1.1119    1.1180   64.5629   62.6046   62.9409      0.0000         0.9476    0.9945
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0210    0.0442    0.0284    1.8510    2.0408    1.6050      0.0000         0.0145    0.0270
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    0.3296    0.2344    1.0173)
 a2 = (   -0.9320   -0.5025    0.1076)
 a3 = (    0.6666   -0.6778   -0.4593)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    0.3901    0.2555    1.0211) (    0.0230    0.0285    0.0094)
 a2 = (   -0.9200   -0.4983    0.1052) (    0.0284    0.0290    0.0100)
 a3 = (    0.6515   -0.6829   -0.4577) (    0.0205    0.0185    0.0103)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
   65.5387   87.9182   28.6534    1.1496    2.0247    1.1964
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0015    0.0006    0.0000      0.0030    0.0049    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.1751         3.0500
# Chi-squares at the beginning and the end of the refinement
    0.8264    0.1668
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -2    1   -0.4014   -0.1002   -0.3948   -0.0985    0.0068    1
    2    0   -1   -1   -0.0638   -0.2837   -0.0649   -0.2885    0.0049    1
    3    1    0    1   -0.4675    0.2081   -0.4653    0.1876    0.0206    1
    4    1    2    2    0.0138    0.1463    0.0088    0.1499    0.0062    1
    5    2    1    4   -0.0550    0.0631   -0.0615    0.0665    0.0074    1
    6    1   -1   -1   -0.3458   -0.8223   -0.3626   -0.7930    0.0338    1
    7    0    4   -1    0.1854    0.0562    0.1477    0.0591    0.0378    0
    8   -2    1   -5    0.0605   -0.0297    0.0790   -0.0154    0.0234    0
    9    1    2   -1    0.7673    0.0324    0.6879   -0.0069    0.0886    0
   10    1   -1   -3    0.2055   -0.7710    0.1845   -0.7818    0.0236    1
   11   -1   -2   -4    0.0511   -0.1571    0.0532   -0.1549    0.0030    1
   12    0    1   -4    0.3926   -0.2410    0.3747   -0.2907    0.0529    0
   13    1   -3   -1   -0.2384   -0.2346   -0.2415   -0.2352    0.0032    1
   14    1   -1    1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    0    1    0    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16    1    4    2    0.0777    0.1177    0.0758    0.1206    0.0034    1
   17    0   -2   -5    0.1425   -0.4261    0.1219   -0.4292    0.0208    1
   18    2   -3   -1   -0.4085   -0.3888   -0.4045   -0.3765    0.0130    1
   19    0    0   -1    0.3388   -0.3445    0.3388   -0.3445    0.0000    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    2   -2    1   -0.3965   -0.0990   -0.3948   -0.0985    0.0017    1
    2    0   -1   -1   -0.0660   -0.2831   -0.0649   -0.2885    0.0055    1
    3    1    0    1   -0.4645    0.1906   -0.4653    0.1876    0.0031    1
    4    1    2    2    0.0089    0.1499    0.0088    0.1499    0.0001    1
    5    2    1    4   -0.0595    0.0645   -0.0615    0.0665    0.0029    1
    6    1   -1   -1   -0.3637   -0.7895   -0.3626   -0.7930    0.0037    1
    7    0    4   -1    0.1843    0.0568    0.1477    0.0591    0.0367    0
    8   -2    1   -5    0.0558   -0.0272    0.0790   -0.0154    0.0260    0
    9    1    3   -2    0.6109   -0.0205    0.6879   -0.0069    0.0782    0
   10    1   -1   -3    0.1769   -0.7751    0.1845   -0.7818    0.0102    1
   11   -1   -2   -4    0.0502   -0.1547    0.0532   -0.1549    0.0030    1
   12    0    1   -4    0.3903   -0.2476    0.3747   -0.2907    0.0459    0
   13    1   -3   -1   -0.2404   -0.2321   -0.2415   -0.2352    0.0033    1
   14    1   -1    1   -0.2348   -0.0078   -0.2334   -0.0072    0.0016    1
   15    0    1    0    0.0869    0.0485    0.0894    0.0482    0.0026    1
   16    1    4    2    0.0755    0.1209    0.0758    0.1206    0.0005    1
   17    0   -2   -5    0.1357   -0.4264    0.1219   -0.4292    0.0141    1
   18    2   -3   -1   -0.4067   -0.3765   -0.4045   -0.3765    0.0022    1
   19    0    0   -1    0.3332   -0.3502    0.3388   -0.3445    0.0081    1

###            No.37                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    1.0391    1.1143    1.1338   65.1899   63.0539   62.4166      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    1.0594    1.1324    1.1344   63.3887   60.7921   61.2321      0.0000         0.9339    0.9982
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0206    0.0495    0.0376    1.3368    1.9577    1.2836      0.0000         0.0196    0.0227
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.1545    0.9083   -0.6829)
 a2 = (    0.6330   -0.6934   -0.4706)
 a3 = (   -0.8977   -0.4841    0.1137)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.1217    0.9258   -0.6687) (    0.0316    0.0157    0.0207)
 a2 = (    0.6515   -0.6829   -0.4577) (    0.0255    0.0311    0.0182)
 a3 = (   -0.9200   -0.4983    0.1052) (    0.0354    0.0190    0.0098)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
 -139.0717  117.2879  -60.8337    1.3151    1.7501    0.9275
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0015    0.0006    0.0000      0.0030    0.0049    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         2.8825         3.0500
# Chi-squares at the beginning and the end of the refinement
    0.3715    0.1668
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -1   -4   -0.3982   -0.0991   -0.3948   -0.0985    0.0035    1
    2    0   -1   -1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -1    0   -1   -0.4653    0.1876   -0.4653    0.1876    0.0000    1
    4   -1    1    1    0.0082    0.1559    0.0088    0.1499    0.0060    1
    5   -2    2   -1   -0.0569    0.0626   -0.0615    0.0665    0.0061    1
    6   -1   -2   -2   -0.3730   -0.7891   -0.3626   -0.7930    0.0111    1
    7    0   -1    5    0.1822    0.0614    0.1477    0.0591    0.0346    0
    8    2   -3    3    0.0632   -0.0315    0.0790   -0.0154    0.0226    0
    9   -1   -3    2    0.6538   -0.0376    0.6879   -0.0069    0.0459    0
   10   -1   -4   -2    0.1627   -0.7917    0.1845   -0.7818    0.0239    1
   11    1   -3   -1    0.0531   -0.1595    0.0532   -0.1549    0.0045    1
   12    0   -4    1    0.4026   -0.2687    0.3747   -0.2907    0.0355    0
   13   -1   -2   -4   -0.2420   -0.2357   -0.2415   -0.2352    0.0006    1
   14   -1    0   -2   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    0    0    1    0.0981    0.0529    0.0894    0.0482    0.0099    1
   16   -1    1    3    0.0814    0.1305    0.0758    0.1206    0.0113    1
   17    0   -5   -2    0.1351   -0.4375    0.1219   -0.4292    0.0157    1
   18   -2   -3   -5   -0.4103   -0.3799   -0.4045   -0.3765    0.0067    1
   19    0   -1    0    0.3379   -0.3701    0.3388   -0.3445    0.0257    0

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -2   -1   -4   -0.3965   -0.0990   -0.3948   -0.0985    0.0017    1
    2    0   -1   -1   -0.0660   -0.2831   -0.0649   -0.2885    0.0055    1
    3   -1    0   -1   -0.4645    0.1906   -0.4653    0.1876    0.0031    1
    4   -1    1    1    0.0089    0.1499    0.0088    0.1499    0.0001    1
    5   -2    2   -1   -0.0595    0.0645   -0.0615    0.0665    0.0029    1
    6   -1   -2   -2   -0.3637   -0.7895   -0.3626   -0.7930    0.0037    1
    7    0   -1    4    0.1843    0.0568    0.1477    0.0591    0.0367    0
    8    2   -3    3    0.0558   -0.0272    0.0790   -0.0154    0.0260    0
    9   -1   -3    2    0.6109   -0.0205    0.6879   -0.0069    0.0782    0
   10   -1   -4   -2    0.1769   -0.7751    0.1845   -0.7818    0.0102    1
   11    1   -3   -1    0.0502   -0.1547    0.0532   -0.1549    0.0030    1
   12    0   -4    1    0.3903   -0.2476    0.3747   -0.2907    0.0459    0
   13   -1   -2   -4   -0.2404   -0.2321   -0.2415   -0.2352    0.0033    1
   14   -1    0   -2   -0.2348   -0.0078   -0.2334   -0.0072    0.0016    1
   15    0    0    1    0.0869    0.0485    0.0894    0.0482    0.0026    1
   16   -1    1    3    0.0755    0.1209    0.0758    0.1206    0.0005    1
   17    0   -5   -2    0.1357   -0.4264    0.1219   -0.4292    0.0141    1
   18   -2   -3   -5   -0.4067   -0.3765   -0.4045   -0.3765    0.0022    1
   19    0   -1    0    0.3332   -0.3502    0.3388   -0.3445    0.0081    1

###            No.47                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.9507    0.9583    1.3223   76.6620   70.8727   61.9167      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.9438    0.9647    1.3493   79.1466   69.3969   60.4369      0.0000         0.6995    0.7149
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0096    0.0312    0.0249    1.3507    0.9376    0.9599      0.0000         0.0118    0.0180
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (   -0.7432    0.2122    0.9608)
 a2 = (   -0.3332    0.5016   -1.0238)
 a3 = (   -0.1691   -0.7521   -0.2279)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (   -0.7445    0.2776    1.0013) (    0.0164    0.0180    0.0118)
 a2 = (   -0.3283    0.4180   -1.0670) (    0.0364    0.0316    0.0201)
 a3 = (   -0.1651   -0.7415   -0.2237) (    0.0078    0.0156    0.0060)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  127.4417   99.3846  -32.4732    0.8283    1.2749    0.7266
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0011    0.0000      0.0028    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.6978         3.0144
# Chi-squares at the beginning and the end of the refinement
    0.1984    0.0184
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3   -4   -5   -0.5015   -0.1271   -0.3948   -0.0985    0.1104    0
    2    0    0   -1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3   -2   -3   -1   -0.4337    0.1923   -0.4653    0.1876    0.0320    0
    4    0   -1    3    0.0077    0.1228    0.0088    0.1499    0.0271    0
    5   -2   -3    3   -0.0430    0.0910   -0.0615    0.0665    0.0307    0
    6    0   -1   -3   -0.3792   -0.7916   -0.3626   -0.7930    0.0166    1
    7    4    2    5    0.1238    0.0527    0.1477    0.0591    0.0247    0
    8    4    3    2    0.0706   -0.0139    0.0790   -0.0154    0.0086    1
    9    4    1    2    0.6474    0.0273    0.6879   -0.0069    0.0530    0
   10    1    0   -2    0.1845   -0.7818    0.1845   -0.7818    0.0000    1
   11    1    1   -2    0.0531   -0.1595    0.0532   -0.1549    0.0045    1
   12    4    2   -1    0.3730   -0.2800    0.3747   -0.2907    0.0109    1
   13   -1   -1   -3   -0.2420   -0.2357   -0.2415   -0.2352    0.0006    1
   14   -1   -1   -1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15    2    1    3    0.0693    0.0396    0.0894    0.0482    0.0219    0
   16    1    0    3    0.0603    0.0986    0.0758    0.1206    0.0269    0
   17    2    1   -4    0.1232   -0.4241    0.1219   -0.4292    0.0052    1
   18   -2   -3   -6   -0.4656   -0.3436   -0.4045   -0.3765    0.0694    0
   19    2    1   -1    0.3354   -0.3410    0.3388   -0.3445    0.0049    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1   -3   -3   -5   -0.2809   -0.1112   -0.3948   -0.0985    0.1146    0
    2    0    0   -1   -0.0647   -0.2863   -0.0649   -0.2885    0.0022    1
    3   -2   -3   -1   -0.4637    0.1884   -0.4653    0.1876    0.0018    1
    4    0   -1    3    0.0088    0.1503    0.0088    0.1499    0.0004    1
    5   -4   -4   -1   -0.0909    0.0424   -0.0615    0.0665    0.0379    0
    6    0   -1   -3   -0.3639   -0.7954   -0.3626   -0.7930    0.0027    1
    7    4    2    5    0.1454    0.0588    0.1477    0.0591    0.0023    1
    8    4    3    2    0.0791   -0.0153    0.0790   -0.0154    0.0002    1
    9    4    1    2    0.6842   -0.0074    0.6879   -0.0069    0.0037    1
   10    1    0   -2    0.1828   -0.7786    0.1845   -0.7818    0.0037    1
   11    1    1   -2    0.0528   -0.1559    0.0532   -0.1549    0.0010    1
   12    4    2   -1    0.3767   -0.2913    0.3747   -0.2907    0.0021    1
   13   -1   -1   -3   -0.2415   -0.2337   -0.2415   -0.2352    0.0016    1
   14   -1   -1   -1   -0.2341   -0.0075   -0.2334   -0.0072    0.0008    1
   15    2    1    3    0.0878    0.0490    0.0894    0.0482    0.0018    1
   16    1    0    3    0.0762    0.1218    0.0758    0.1206    0.0013    1
   17    2    1   -4    0.1249   -0.4267    0.1219   -0.4292    0.0040    1
   18   -2   -3   -6   -0.4646   -0.3523   -0.4045   -0.3765    0.0648    0
   19    2    1   -1    0.3372   -0.3495    0.3388   -0.3445    0.0053    1

###            No.48                ###
# Bravais type
       Triclinic
# a : b : c  alpha  beta  gamma (degree) scale_factor (before refinement)
    0.9187    0.9251    1.3579   87.5308   71.4879   66.6274      0.0000
# a : b : c  alpha  beta  gamma (degree) scale_factor, a/c, b/c (after refinement)
    0.9438    0.9607    1.3493   80.9884   69.3969   60.8562      0.0000         0.6995    0.7120
# propagation errors when the errors of the input angles are assumed to be within 1 deg.
    0.0168    0.0177    0.0248    1.4483    0.9376    1.6712      0.0000         0.0118    0.0111
# Buerger-reduced reciprocal_lattice basis (before refinement)
 a1 = (    1.0447   -0.6928    0.0611)
 a2 = (   -0.1907    0.4851   -1.0620)
 a3 = (    0.1641    0.7299    0.2212)
# Buerger-reduced reciprocal_lattice basis, propagation errors  (after refinement)
 a1 = (    1.0728   -0.6956    0.0656) (    0.0090    0.0140    0.0106)
 a2 = (   -0.3283    0.4180   -1.0670) (    0.0299    0.0262    0.0193)
 a3 = (    0.1651    0.7415    0.2237) (    0.0088    0.0132    0.0066)
# Euler angles: theta1, theta2, theta3, Error_theta1, Error_theta2, Error_theta3 (deg) (after refinement)
  177.0226   80.6154  147.5268    0.4796    1.2749    0.7266
# Projection center shifts: Delta_x, Delta_y, Delta_z, Error_Delta_x, Error_Delta_y, Error_Delta_z, 
   -0.0007    0.0011    0.0000      0.0028    0.0027    0.0000

# Number of computed bands
            400            400
# Figure of merit at the beginning and the end of the refinement
         1.2654         3.0144
# Chi-squares at the beginning and the end of the refinement
    1.1190    0.0184
# Indexing with the parameters before refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    3    0    5   -0.2816   -0.1119   -0.3948   -0.0985    0.1140    0
    2    0    0    1   -0.0649   -0.2885   -0.0649   -0.2885    0.0000    1
    3    2   -1    1   -0.4722    0.2204   -0.4653    0.1876    0.0335    0
    4    0   -1   -3    0.0166    0.1470    0.0088    0.1499    0.0083    1
    5    3   -1   -3   -0.0538    0.0903   -0.0615    0.0665    0.0250    0
    6    0   -1    4   -0.2482   -0.7133   -0.3626   -0.7930    0.1394    0
    7   -4   -2   -5    0.1443    0.0578    0.1477    0.0591    0.0036    1
    8   -4   -1   -2    0.0838   -0.0160    0.0790   -0.0154    0.0048    1
    9   -4   -3   -2    0.6342    0.0232    0.6879   -0.0069    0.0616    0
   10   -2   -2    5    0.1593   -0.7297    0.1845   -0.7818    0.0579    0
   11   -1    0    2    0.0531   -0.1595    0.0532   -0.1549    0.0045    1
   12   -4   -2    1    0.3893   -0.2712    0.3747   -0.2907    0.0244    0
   13    1    0    3   -0.2420   -0.2357   -0.2415   -0.2352    0.0006    1
   14    1    0    1   -0.2334   -0.0072   -0.2334   -0.0072    0.0000    1
   15   -2   -1   -3    0.0894    0.0482    0.0894    0.0482    0.0000    1
   16   -1   -1   -3    0.0791    0.1164    0.0758    0.1206    0.0053    1
   17   -2   -1    4    0.1405   -0.4319    0.1219   -0.4292    0.0188    1
   18    2   -1    6   -0.4837   -0.3717   -0.4045   -0.3765    0.0793    0
   19   -2   -1    1    0.3553   -0.3340    0.3388   -0.3445    0.0196    1

# Indexing with the parameters after refinement
# Band_number, Miller_index, X_cal, Y_cal, X_obs, Y_obs, distance, good_fit?
    1    3    0    5   -0.2809   -0.1112   -0.3948   -0.0985    0.1146    0
    2    0    0    1   -0.0647   -0.2863   -0.0649   -0.2885    0.0022    1
    3    2   -1    1   -0.4637    0.1884   -0.4653    0.1876    0.0018    1
    4    0   -1   -3    0.0088    0.1503    0.0088    0.1499    0.0004    1
    5    4    0    1   -0.0909    0.0424   -0.0615    0.0665    0.0379    0
    6    0   -1    3   -0.3639   -0.7954   -0.3626   -0.7930    0.0027    1
    7   -4   -2   -5    0.1454    0.0588    0.1477    0.0591    0.0023    1
    8   -4   -1   -2    0.0791   -0.0153    0.0790   -0.0154    0.0002    1
    9   -4   -3   -2    0.6842   -0.0074    0.6879   -0.0069    0.0037    1
   10   -1   -1    2    0.1828   -0.7786    0.1845   -0.7818    0.0037    1
   11   -1    0    2    0.0528   -0.1559    0.0532   -0.1549    0.0010    1
   12   -4   -2    1    0.3767   -0.2913    0.3747   -0.2907    0.0021    1
   13    1    0    3   -0.2415   -0.2337   -0.2415   -0.2352    0.0016    1
   14    1    0    1   -0.2341   -0.0075   -0.2334   -0.0072    0.0008    1
   15   -2   -1   -3    0.0878    0.0490    0.0894    0.0482    0.0018    1
   16   -1   -1   -3    0.0762    0.1218    0.0758    0.1206    0.0013    1
   17   -2   -1    4    0.1249   -0.4267    0.1219   -0.4292    0.0040    1
   18    2   -1    6   -0.4646   -0.3523   -0.4045   -0.3765    0.0648    0
   19   -2   -1    1    0.3372   -0.3495    0.3388   -0.3445    0.0053    1

