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 = 800 C _database_code_amcsd 0005376 CELL PARAMETERS: 7.8610 16.6380 5.6040 90.000 90.000 90.000 SPACE GROUP: C2/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 732.955 Density (g/cm3): 3.727 MAX. ABS. INTENSITY / VOLUME**2: 8.320022081 RIR: 0.727 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.63 2.13 8.3190 0 2 0 2 19.59 7.63 4.5317 1 3 0 4 21.36 17.27 4.1595 0 4 0 2 22.62 6.03 3.9305 2 0 0 2 25.06 3.53 3.5538 2 2 0 4 25.27 2.54 3.5237 -1 3 1 4 25.27 2.54 3.5237 1 3 1 4 27.72 5.28 3.2179 -2 0 1 2 27.72 5.30 3.2179 2 0 1 2 29.14 3.09 3.0644 1 5 0 4 29.77 20.76 3.0012 -2 2 1 4 29.77 20.76 3.0012 2 2 1 4 31.31 12.88 2.8568 2 4 0 4 31.94 18.61 2.8020 0 0 2 2 32.28 23.86 2.7730 0 6 0 2 33.32 43.16 2.6886 -1 5 1 4 33.32 43.14 2.6886 1 5 1 4 33.75 9.27 2.6554 0 2 2 4 34.65 2.49 2.5884 3 1 0 4 35.26 6.46 2.5452 -2 4 1 4 35.26 6.47 2.5452 2 4 1 4 37.75 40.50 2.3832 -1 3 2 4 37.75 40.47 2.3832 1 3 2 4 37.98 40.26 2.3692 3 3 0 4 38.30 17.61 2.3499 3 1 1 4 38.30 17.60 2.3499 -3 1 1 4 39.78 2.67 2.2659 2 6 0 4 41.02 2.40 2.2003 -2 2 2 4 41.02 2.39 2.2003 2 2 2 4 42.90 15.37 2.1080 -1 7 1 4 42.90 15.34 2.1080 1 7 1 4 46.05 53.44 1.9710 0 6 2 4 46.19 25.93 1.9653 4 0 0 2 49.59 1.67 1.8383 2 8 0 4 51.42 5.38 1.7769 4 4 0 4 51.90 1.38 1.7619 -2 6 2 4 51.90 1.38 1.7619 2 6 2 4 52.38 1.81 1.7467 -2 8 1 4 52.38 1.81 1.7467 2 8 1 4 53.48 1.18 1.7134 -1 9 1 4 53.48 1.18 1.7134 1 9 1 4 54.98 1.34 1.6700 0 8 2 4 55.21 2.07 1.6638 0 10 0 2 55.58 2.90 1.6535 -2 2 3 4 55.58 2.90 1.6535 2 2 3 4 57.26 4.60 1.6090 4 0 2 2 57.26 4.60 1.6090 -4 0 2 2 57.48 3.57 1.6034 4 6 0 4 57.81 8.01 1.5950 -1 5 3 4 57.81 8.00 1.5950 1 5 3 4 59.09 1.23 1.5634 -2 4 3 4 59.09 1.23 1.5634 2 4 3 4 60.01 2.56 1.5416 4 6 1 4 60.01 2.56 1.5416 -4 6 1 4 60.21 2.51 1.5370 -2 8 2 4 60.21 2.51 1.5370 2 8 2 4 61.19 4.18 1.5147 3 1 3 4 61.19 4.17 1.5147 -3 1 3 4 61.21 9.94 1.5142 1 9 2 4 61.21 9.94 1.5142 -1 9 2 4 61.28 9.62 1.5126 5 3 0 4 61.37 6.69 1.5106 3 9 0 4 61.51 6.21 1.5075 5 1 1 4 61.51 6.21 1.5075 -5 1 1 4 62.88 1.44 1.4779 -2 10 1 4 62.88 1.44 1.4779 2 10 1 4 64.55 3.72 1.4437 -1 7 3 4 64.55 3.73 1.4437 1 7 3 4 65.21 3.16 1.4306 0 10 2 4 66.77 28.29 1.4010 0 0 4 2 67.28 50.00 1.3917 4 6 2 4 67.28 50.00 1.3917 -4 6 2 4 67.56 23.66 1.3865 0 12 0 2 69.98 1.24 1.3443 -2 10 2 4 69.98 1.24 1.3443 2 10 2 4 72.10 1.00 1.3100 3 11 0 4 74.37 2.73 1.2756 3 11 1 4 74.37 2.73 1.2756 -3 11 1 4 76.12 3.09 1.2505 0 6 4 4 76.69 1.63 1.2427 0 12 2 4 78.41 1.07 1.2197 6 4 1 4 78.41 1.07 1.2197 -6 4 1 4 78.64 1.11 1.2167 -4 6 3 4 78.64 1.11 1.2167 4 6 3 4 79.48 4.11 1.2059 3 3 4 4 79.48 4.11 1.2059 -3 3 4 4 79.97 2.64 1.1997 5 1 3 4 79.97 2.64 1.1997 -5 1 3 4 80.14 3.86 1.1977 5 9 0 4 85.03 2.19 1.1408 4 0 4 2 85.03 2.19 1.1408 -4 0 4 2 85.33 1.09 1.1376 2 14 0 4 85.76 3.19 1.1329 4 12 0 4 86.37 1.19 1.1265 -3 13 1 4 86.37 1.19 1.1265 3 13 1 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.