Enstatite Nestola F, Gatta G D, Ballaran T B American Mineralogist 91 (2006) 809-815 The effect of Ca substitution on the elastic and structural behavior of orthoenstatite Locality: synthetic sample Sample: P = 0.0001 GPa _database_code_amcsd 0004153 CELL PARAMETERS: 18.2588 8.8229 5.1899 90.000 90.000 90.000 SPACE GROUP: Pbca X-RAY WAVELENGTH: 1.541838 Cell Volume: 836.070 Density (g/cm3): 3.207 MAX. ABS. INTENSITY / VOLUME**2: 5.877946463 RIR: 0.597 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 13.96 1.68 6.3443 2 1 0 4 20.13 11.48 4.4114 0 2 0 2 20.44 2.41 4.3449 1 1 1 8 22.13 2.96 4.0170 2 1 1 8 26.97 33.02 3.3057 1 2 1 8 27.93 19.32 3.1949 4 1 1 8 28.13 51.24 3.1722 4 2 0 4 28.29 100.00 3.1543 2 2 1 8 30.38 50.40 2.9424 3 2 1 8 31.09 89.96 2.8768 6 1 0 4 31.63 24.78 2.8289 5 1 1 8 31.97 2.34 2.7993 2 3 0 4 33.10 31.75 2.7066 4 2 1 8 35.42 46.61 2.5339 1 3 1 8 35.68 4.86 2.5161 6 1 1 8 35.98 64.44 2.4961 2 0 2 4 36.33 28.55 2.4731 5 2 1 8 36.34 1.20 2.4723 4 3 0 4 36.47 8.92 2.4638 2 3 1 8 37.68 7.91 2.3870 3 0 2 4 38.15 4.94 2.3587 3 3 1 8 39.09 1.30 2.3042 3 1 2 8 39.48 1.58 2.2824 8 0 0 2 40.01 6.16 2.2533 7 1 1 8 40.41 4.60 2.2320 4 3 1 8 41.31 2.70 2.1856 4 1 2 8 42.75 30.22 2.1153 5 0 2 4 42.76 2.23 2.1148 6 3 0 4 43.09 3.53 2.0994 3 2 2 8 43.17 20.96 2.0955 5 3 1 8 43.94 6.50 2.0607 7 2 1 8 44.02 12.63 2.0570 5 1 2 8 44.57 3.80 2.0330 8 1 1 8 44.70 1.35 2.0271 8 2 0 4 44.93 10.06 2.0176 1 4 1 8 45.68 5.78 1.9860 4 4 0 4 45.79 13.05 1.9816 2 4 1 8 46.36 25.21 1.9584 6 3 1 8 47.20 1.66 1.9257 3 4 1 8 48.19 5.55 1.8882 8 2 1 8 49.12 1.89 1.8548 4 4 1 8 49.16 1.72 1.8534 3 3 2 8 49.55 5.73 1.8396 7 0 2 4 50.65 5.88 1.8022 6 2 2 8 51.02 1.24 1.7900 4 3 2 8 51.08 7.77 1.7880 10 1 0 4 51.51 6.97 1.7743 5 4 1 8 52.84 10.19 1.7325 2 5 0 4 53.82 8.20 1.7032 8 3 1 8 54.01 5.34 1.6979 7 2 2 8 54.55 7.61 1.6823 8 1 2 8 54.86 1.68 1.6735 1 4 2 8 55.02 2.27 1.6690 2 1 3 8 55.60 5.71 1.6528 2 4 2 8 55.95 2.34 1.6434 2 5 1 8 56.26 3.91 1.6352 3 1 3 8 56.83 2.46 1.6200 3 4 2 8 57.20 18.11 1.6106 0 2 3 4 57.44 11.90 1.6043 1 2 3 8 57.68 7.16 1.5983 9 0 2 4 58.02 11.83 1.5897 9 3 1 8 58.16 2.51 1.5861 8 4 0 4 58.71 2.15 1.5727 9 1 2 8 58.86 1.50 1.5689 4 5 1 8 60.67 6.54 1.5265 6 5 0 4 60.88 6.61 1.5216 12 0 0 2 60.99 2.08 1.5192 5 5 1 8 61.01 1.06 1.5188 4 2 3 8 61.73 2.83 1.5027 9 2 2 8 62.49 22.69 1.4863 10 3 1 8 62.49 25.83 1.4862 1 3 3 8 62.66 1.93 1.4826 6 1 3 8 63.18 4.49 1.4716 2 3 3 8 63.20 1.66 1.4712 6 4 2 8 63.24 22.64 1.4705 0 6 0 2 65.82 9.22 1.4190 3 5 2 8 66.05 1.21 1.4144 10 2 2 8 66.14 1.21 1.4128 7 4 2 8 66.46 1.18 1.4068 7 5 1 8 66.92 11.62 1.3983 11 0 2 4 67.23 23.87 1.3925 11 3 1 8 67.58 1.06 1.3862 12 2 1 8 67.86 5.72 1.3811 11 1 2 8 67.90 1.83 1.3805 5 3 3 8 68.47 3.10 1.3704 7 2 3 8 68.99 5.47 1.3612 0 4 3 4 69.21 2.48 1.3575 1 4 3 8 69.35 1.14 1.3550 5 5 2 8 70.30 6.82 1.3390 6 3 3 8 70.95 1.52 1.3284 3 4 3 8 72.24 12.05 1.3078 12 3 1 8 72.45 1.52 1.3045 4 4 3 8 72.85 10.66 1.2983 12 1 2 8 73.01 1.09 1.2959 13 2 1 8 73.10 1.97 1.2945 7 3 3 8 73.12 5.15 1.2942 1 0 4 4 73.39 3.06 1.2902 14 1 0 4 74.03 3.71 1.2805 1 1 4 8 74.82 1.32 1.2690 3 0 4 4 74.83 2.22 1.2689 10 5 0 4 74.96 12.80 1.2670 2 6 2 8 76.01 4.66 1.2520 3 6 2 8 76.30 4.26 1.2480 4 0 4 4 76.64 1.11 1.2433 10 1 3 8 77.67 4.90 1.2294 8 5 2 8 78.06 1.40 1.2242 2 5 3 8 79.08 2.15 1.2110 5 1 4 8 79.11 2.08 1.2106 3 5 3 8 79.36 3.26 1.2074 5 6 2 8 81.20 5.20 1.1846 9 5 2 8 81.74 2.02 1.1782 5 2 4 8 83.19 1.13 1.1612 5 7 1 8 83.75 2.10 1.1549 10 3 3 8 84.03 1.41 1.1518 7 1 4 8 84.31 1.26 1.1486 7 6 2 8 84.99 1.60 1.1412 16 0 0 2 86.23 1.60 1.1280 8 0 4 4 89.41 1.81 1.0959 11 5 2 8 89.73 1.17 1.0928 8 2 4 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.