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 = 1050 C _database_code_amcsd 0009064 CELL PARAMETERS: 18.4197 8.9449 5.2609 90.000 90.000 90.000 SPACE GROUP: Pbca X-RAY WAVELENGTH: 1.541838 Cell Volume: 866.798 Density (g/cm3): 3.137 MAX. ABS. INTENSITY / VOLUME**2: 5.932062031 RIR: 0.616 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 13.80 4.50 6.4166 2 1 0 4 19.85 7.96 4.4724 0 2 0 2 20.17 2.08 4.4033 1 1 1 8 21.85 1.27 4.0683 2 1 1 8 26.60 27.49 3.3507 1 2 1 8 27.61 24.75 3.2311 4 1 1 8 27.81 50.31 3.2083 4 2 0 4 27.92 100.00 3.1958 2 2 1 8 29.99 56.84 2.9794 3 2 1 8 30.79 77.72 2.9037 6 1 0 4 31.28 16.35 2.8593 5 1 1 8 31.54 4.64 2.8367 2 3 0 4 32.69 25.46 2.7391 4 2 1 8 34.93 36.13 2.5686 1 3 1 8 35.31 4.65 2.5422 6 1 1 8 35.49 55.72 2.5293 2 0 2 4 35.90 24.89 2.5015 5 2 1 8 35.92 1.17 2.5002 1 1 2 8 35.97 7.41 2.4968 2 3 1 8 37.19 10.27 2.4179 3 0 2 4 37.64 2.20 2.3895 3 3 1 8 39.12 1.38 2.3025 8 0 0 2 39.51 1.90 2.2808 6 2 1 8 39.60 7.60 2.2760 7 1 1 8 39.89 5.09 2.2601 4 3 1 8 40.77 3.91 2.2131 4 1 2 8 42.21 26.95 2.1407 5 0 2 4 42.25 2.31 2.1389 6 3 0 4 42.50 3.07 2.1270 3 2 2 8 42.63 20.89 2.1210 5 3 1 8 43.45 5.78 2.0827 7 2 1 8 43.47 9.88 2.0819 5 1 2 8 44.11 1.49 2.0530 8 1 1 8 44.24 1.21 2.0471 8 2 0 4 44.29 7.86 2.0453 1 4 1 8 44.54 1.03 2.0342 4 2 2 8 45.07 5.34 2.0116 4 4 0 4 45.14 12.73 2.0085 2 4 1 8 45.79 15.17 1.9814 6 3 1 8 46.54 1.77 1.9513 3 4 1 8 47.67 4.05 1.9078 8 2 1 8 48.45 1.25 1.8789 4 4 1 8 48.47 2.03 1.8780 3 3 2 8 48.82 1.08 1.8654 9 1 1 8 48.96 5.60 1.8603 7 0 2 4 50.01 5.69 1.8239 6 2 2 8 50.32 1.33 1.8132 4 3 2 8 50.59 7.96 1.8041 10 1 0 4 50.82 3.76 1.7967 5 4 1 8 52.08 7.87 1.7562 2 5 0 4 53.19 7.72 1.7220 8 3 1 8 53.34 2.40 1.7177 7 2 2 8 53.90 4.92 1.7009 8 1 2 8 54.05 2.80 1.6965 1 4 2 8 54.22 1.88 1.6916 2 1 3 8 54.79 6.34 1.6753 2 4 2 8 55.14 1.19 1.6658 2 5 1 8 55.45 2.44 1.6570 3 1 3 8 56.01 4.33 1.6417 3 4 2 8 56.35 22.66 1.6326 0 2 3 4 56.59 5.26 1.6262 1 2 3 8 56.79 1.16 1.6211 7 4 1 8 57.01 3.06 1.6153 9 0 2 4 57.34 9.20 1.6067 9 3 1 8 57.45 3.27 1.6042 8 4 0 4 58.02 1.33 1.5896 4 5 1 8 58.02 2.82 1.5896 9 1 2 8 59.84 4.05 1.5457 6 5 0 4 60.13 1.47 1.5389 5 5 1 8 60.13 1.77 1.5388 4 2 3 8 60.30 4.33 1.5350 12 0 0 2 60.99 4.39 1.5192 9 2 2 8 61.56 11.34 1.5065 1 3 3 8 61.77 14.20 1.5018 10 3 1 8 61.80 2.71 1.5011 6 1 3 8 62.24 4.91 1.4916 2 3 3 8 62.28 15.40 1.4908 0 6 0 2 62.33 1.88 1.4897 6 4 2 8 64.04 1.27 1.4539 12 1 1 8 64.83 5.48 1.4381 3 5 2 8 65.26 1.28 1.4297 10 2 2 8 66.15 6.24 1.4126 11 0 2 4 66.46 15.87 1.4069 11 3 1 8 67.00 1.90 1.3967 3 6 1 8 67.08 4.17 1.3953 11 1 2 8 67.93 6.15 1.3799 0 4 3 4 69.29 6.40 1.3561 6 3 3 8 71.35 1.73 1.3219 4 4 3 8 71.41 10.93 1.3210 12 3 1 8 71.98 3.47 1.3119 1 0 4 4 72.01 8.97 1.3114 12 1 2 8 72.63 2.09 1.3017 14 1 0 4 72.87 2.95 1.2980 1 1 4 8 73.66 1.99 1.2861 3 0 4 4 73.78 10.48 1.2843 2 6 2 8 73.84 2.20 1.2833 10 5 0 4 74.82 3.27 1.2690 3 6 2 8 75.12 2.63 1.2647 4 0 4 4 75.62 1.18 1.2575 10 1 3 8 76.55 3.82 1.2446 8 5 2 8 76.82 1.27 1.2409 2 5 3 8 78.12 1.89 1.2234 5 6 2 8 80.03 3.99 1.1989 9 5 2 8 80.45 1.47 1.1937 5 2 4 8 82.56 3.52 1.1685 10 3 3 8 82.74 1.02 1.1664 7 1 4 8 89.45 2.02 1.0955 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.