Staurolite
Caucia F, Callegari A, Oberti R, Ungaretti L, Hawthorne F C
The Canadian Mineralogist 32 (1994) 477-489
Structural aspects of oxidation-dehydrogenation in staurolite
Sample: T = 700 C
_database_code_amcsd 0005375
7.867 16.619 5.625 90 90.00 90 C2/m
atom       x      y      z occ Biso
SiT1  .13470 .16720 .25002 .95  .38
AlT1  .13470 .16720 .25002 .05  .38
FeT2  .38248      0 .25001  .5  .83
AlT2  .38248      0 .25001 .16  .83
MgT2  .38248      0 .25001 .08  .83
ZnT2  .38248      0 .25001 .01  .83
FeT3  .12508      0 .24989 .06  .44
AlT3  .12508      0 .24989 .11  .44
AlM1A     .5 .17407      0 .97  .40
MgM1A     .5 .17407      0 .01  .40
FeM1A     .5 .17407      0 .02  .40
AlM1B     .5 .17407     .5 .97  .41
MgM1B     .5 .17407     .5 .01  .41
FeM1B     .5 .17407     .5 .02  .41
AlM2  .26365 .41202    .25 .94  .54
FeM2  .26365 .41202    .25 .06  .54
AlM3A      0      0      0 .63  .48
MgM3A      0      0      0 .04  .48
FeM3A      0      0      0 .06  .48
AlM3B      0      0     .5 .63  .49
MgM3B      0      0     .5 .04  .49
FeM3B      0      0     .5 .06  .49
FeM4A     .5      0      0 .05  .85
MgM4A     .5      0      0 .05  .85
FeM4B     .5      0     .5 .05  .86
MgM4B     .5      0     .5 .05  .86
O1A   .23706      0 .96789  .5  .84
OH1A  .23706      0 .96789  .5  .84
O1B   .23697      0 .53201  .5  .84
OH1B  .23697      0 .53201  .5  .84
O2A   .25556 .16179 .01475      .46
O2B   .25553 .16181 .48524      .46
O3    .00258 .09003    .25      .69
O4    .02143 .24994 .25002      .45
O5    .52524 .09861 .24996      .47