Staurolite Comodi P, Montagnoli M, Zanazzi P F, Ballaran T B American Mineralogist 87 (2002) 1164-1171 Isothermal compression of staurolite: A single-crystal study Sample: P = 4.15 GPa _database_code_amcsd 0002886 CELL PARAMETERS: 7.8200 16.5100 5.6260 90.000 90.000 90.000 SPACE GROUP: Ccmm X-RAY WAVELENGTH: 1.541838 Cell Volume: 726.363 Density (g/cm3): 4.390 MAX. ABS. INTENSITY / VOLUME**2: 18.01067408 RIR: 1.336 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.72 100.00 8.2550 0 2 0 2 12.52 67.36 7.0673 1 1 0 4 19.73 8.52 4.5006 1 3 0 4 21.53 1.28 4.1275 0 4 0 2 22.74 15.67 3.9100 2 0 0 2 25.20 2.06 3.5337 2 2 0 4 25.34 2.06 3.5144 1 3 1 8 27.79 1.15 3.2107 2 0 1 4 29.36 16.72 3.0419 1 5 0 4 29.86 34.83 2.9924 2 2 1 8 31.52 22.04 2.8386 2 4 0 4 32.54 32.26 2.7517 0 6 0 2 33.49 35.65 2.6758 1 5 1 8 34.31 3.50 2.6136 1 1 2 8 34.84 6.07 2.5748 3 1 0 4 35.42 14.90 2.5343 2 4 1 8 37.71 25.40 2.3854 1 3 2 8 38.20 9.25 2.3558 3 3 0 4 38.45 20.15 2.3412 3 1 1 8 38.74 7.11 2.3245 0 4 2 4 39.92 4.26 2.2581 1 7 0 4 41.01 6.74 2.2008 2 2 2 8 43.17 12.03 2.0956 1 7 1 8 43.84 2.45 2.0653 1 5 2 8 43.87 3.38 2.0638 0 8 0 2 44.27 2.66 2.0460 3 5 0 4 45.39 1.96 1.9981 2 4 2 8 46.15 38.88 1.9670 0 6 2 4 46.45 19.86 1.9550 4 0 0 2 47.81 1.34 1.9024 4 2 0 4 47.90 2.20 1.8993 3 1 2 8 49.97 2.38 1.8251 2 8 0 4 50.54 2.74 1.8061 3 3 2 8 51.15 1.49 1.7860 1 9 0 4 52.04 4.55 1.7572 2 6 2 8 52.73 2.96 1.7361 2 8 1 8 53.86 1.74 1.7023 1 9 1 8 55.47 4.22 1.6565 2 2 3 8 55.54 4.26 1.6546 3 5 2 8 55.67 3.57 1.6510 0 10 0 2 57.40 10.44 1.6054 4 0 2 4 57.75 7.97 1.5964 1 5 3 8 59.04 2.38 1.5647 2 4 3 8 60.37 2.99 1.5334 4 6 1 8 60.91 1.93 1.5210 2 10 0 4 61.14 3.53 1.5159 3 1 3 8 61.50 6.21 1.5077 1 9 2 8 61.65 3.53 1.5044 5 3 0 4 61.83 4.24 1.5006 5 1 1 8 61.85 1.04 1.5002 3 9 0 4 62.03 5.31 1.4962 4 4 2 8 63.07 1.40 1.4740 1 11 0 4 63.34 2.75 1.4683 2 10 1 8 64.60 3.45 1.4427 1 7 3 8 66.48 17.36 1.4065 0 0 4 2 67.55 58.55 1.3866 4 6 2 8 67.95 1.08 1.3794 1 1 4 8 68.16 13.33 1.3758 0 12 0 2 68.93 2.99 1.3623 5 1 2 8 70.37 3.67 1.3379 2 10 2 8 71.25 1.32 1.3235 2 0 4 4 72.38 1.22 1.3056 1 11 2 8 72.70 1.15 1.3007 3 11 0 4 74.29 1.56 1.2766 1 5 4 8 74.94 2.50 1.2673 3 11 1 8 75.35 1.64 1.2614 4 10 0 4 75.43 2.95 1.2603 2 4 4 8 75.99 3.52 1.2524 0 6 4 4 78.81 1.35 1.2144 4 6 3 8 78.88 1.19 1.2136 6 4 1 8 79.34 1.99 1.2076 3 3 4 8 80.11 1.47 1.1979 5 1 3 8 80.74 1.29 1.1902 5 9 0 4 81.48 1.04 1.1813 2 10 3 8 82.13 1.13 1.1735 5 3 3 8 82.38 1.95 1.1706 6 2 2 8 84.94 3.73 1.1417 4 0 4 4 85.40 1.22 1.1368 6 4 2 8 86.50 2.59 1.1251 4 12 0 4 87.10 1.13 1.1189 3 13 1 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.