Enstatite Gatta G D, Rinaldi R, Knight K S, Molin G, Artioli G Physics and Chemistry of Minerals 34 (2007) 185-200 High temperature structural and thermoelastic behaviour of mantle orthopyroxene: an in situ neutron powder diffraction study Sample: T = 1000 C _database_code_amcsd 0009066 CELL PARAMETERS: 18.4047 8.9366 5.2543 90.000 90.000 90.000 SPACE GROUP: Pbca X-RAY WAVELENGTH: 1.541838 Cell Volume: 864.203 Density (g/cm3): 3.147 MAX. ABS. INTENSITY / VOLUME**2: 5.859694832 RIR: 0.606 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 13.81 4.14 6.4110 2 1 0 4 19.87 8.59 4.4683 0 2 0 2 20.19 2.67 4.3982 1 1 1 8 21.87 2.65 4.0638 2 1 1 8 26.63 28.68 3.3471 1 2 1 8 27.64 23.01 3.2279 4 1 1 8 27.83 49.71 3.2055 4 2 0 4 27.95 100.00 3.1925 2 2 1 8 30.02 57.21 2.9764 3 2 1 8 30.82 79.32 2.9013 6 1 0 4 31.31 17.66 2.8566 5 1 1 8 31.57 3.99 2.8341 2 3 0 4 32.73 25.99 2.7365 4 2 1 8 34.97 36.90 2.5661 1 3 1 8 35.34 5.27 2.5398 6 1 1 8 35.54 58.16 2.5262 2 0 2 4 35.93 26.23 2.4991 5 2 1 8 35.96 1.12 2.4972 1 1 2 8 36.01 8.20 2.4944 2 3 1 8 37.23 10.19 2.4150 3 0 2 4 37.68 2.53 2.3872 3 3 1 8 39.16 1.50 2.3006 8 0 0 2 39.55 1.62 2.2787 6 2 1 8 39.64 7.08 2.2739 7 1 1 8 39.93 5.04 2.2579 4 3 1 8 40.82 3.81 2.2106 4 1 2 8 42.26 26.27 2.1384 5 0 2 4 42.29 2.42 2.1370 6 3 0 4 42.55 3.13 2.1246 3 2 2 8 42.67 21.13 2.1190 5 3 1 8 43.49 5.68 2.0808 7 2 1 8 43.52 10.60 2.0797 5 1 2 8 44.15 1.89 2.0512 8 1 1 8 44.28 1.26 2.0454 8 2 0 4 44.33 7.94 2.0433 1 4 1 8 44.59 1.52 2.0319 4 2 2 8 45.11 5.79 2.0098 4 4 0 4 45.19 12.67 2.0065 2 4 1 8 45.84 16.18 1.9795 6 3 1 8 46.59 1.72 1.9494 3 4 1 8 47.71 4.10 1.9061 8 2 1 8 48.50 1.57 1.8771 4 4 1 8 48.53 2.05 1.8760 3 3 2 8 49.02 5.97 1.8584 7 0 2 4 50.06 5.91 1.8219 6 2 2 8 50.38 1.39 1.8113 4 3 2 8 50.64 7.79 1.8026 10 1 0 4 50.87 4.11 1.7950 5 4 1 8 52.13 8.00 1.7545 2 5 0 4 53.24 7.28 1.7204 8 3 1 8 53.39 2.71 1.7159 7 2 2 8 53.96 5.30 1.6992 8 1 2 8 54.12 2.71 1.6947 1 4 2 8 54.30 1.57 1.6895 2 1 3 8 54.86 6.46 1.6736 2 4 2 8 55.19 1.03 1.6642 2 5 1 8 55.53 2.85 1.6550 3 1 3 8 56.08 3.78 1.6400 3 4 2 8 56.43 22.40 1.6306 0 2 3 4 56.67 5.95 1.6243 1 2 3 8 56.85 1.46 1.6196 7 4 1 8 57.07 3.29 1.6137 9 0 2 4 57.40 9.60 1.6053 9 3 1 8 57.50 3.13 1.6028 8 4 0 4 58.08 1.53 1.5881 4 5 1 8 58.08 2.57 1.5880 9 1 2 8 59.89 4.14 1.5443 6 5 0 4 60.19 1.14 1.5374 5 5 1 8 60.21 1.72 1.5370 4 2 3 8 60.35 4.63 1.5337 12 0 0 2 61.05 3.83 1.5178 9 2 2 8 61.64 12.18 1.5048 1 3 3 8 61.83 15.24 1.5005 10 3 1 8 61.88 3.06 1.4994 6 1 3 8 62.32 4.64 1.4899 2 3 3 8 62.34 16.04 1.4894 0 6 0 2 62.40 1.91 1.4882 6 4 2 8 64.91 5.64 1.4367 3 5 2 8 65.31 1.02 1.4286 1 6 1 8 65.33 1.27 1.4283 10 2 2 8 66.22 6.55 1.4113 11 0 2 4 66.52 16.28 1.4056 11 3 1 8 67.07 1.94 1.3954 3 6 1 8 67.15 4.28 1.3940 11 1 2 8 67.60 1.08 1.3858 7 2 3 8 68.01 6.36 1.3784 0 4 3 4 68.23 1.03 1.3745 1 4 3 8 69.38 5.99 1.3546 6 3 3 8 71.44 1.53 1.3204 4 4 3 8 71.48 11.37 1.3199 12 3 1 8 72.08 3.80 1.3102 1 0 4 4 72.09 9.49 1.3102 12 1 2 8 72.70 2.17 1.3006 14 1 0 4 72.98 3.14 1.2964 1 1 4 8 73.77 1.81 1.2845 3 0 4 4 73.86 10.79 1.2830 2 6 2 8 73.92 2.25 1.2822 10 5 0 4 74.91 3.32 1.2677 3 6 2 8 75.23 2.81 1.2631 4 0 4 4 75.72 1.00 1.2562 10 1 3 8 76.64 3.92 1.2434 8 5 2 8 76.92 1.09 1.2395 2 5 3 8 78.21 1.81 1.2222 5 6 2 8 80.13 3.91 1.1978 9 5 2 8 80.57 1.72 1.1923 5 2 4 8 82.67 3.57 1.1673 10 3 3 8 89.56 2.21 1.0945 9 6 2 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.