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 = 975 C _database_code_amcsd 0009067 CELL PARAMETERS: 18.3995 8.9329 5.2519 90.000 90.000 90.000 SPACE GROUP: Pbca X-RAY WAVELENGTH: 1.541838 Cell Volume: 863.207 Density (g/cm3): 3.150 MAX. ABS. INTENSITY / VOLUME**2: 5.830762197 RIR: 0.603 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 13.82 4.34 6.4088 2 1 0 4 19.88 8.66 4.4665 0 2 0 2 20.20 2.50 4.3963 1 1 1 8 21.88 2.02 4.0622 2 1 1 8 26.64 29.12 3.3457 1 2 1 8 27.65 23.79 3.2267 4 1 1 8 27.84 50.99 3.2044 4 2 0 4 27.96 100.00 3.1912 2 2 1 8 30.03 56.70 2.9753 3 2 1 8 30.83 80.00 2.9004 6 1 0 4 31.32 17.31 2.8556 5 1 1 8 31.58 4.37 2.8329 2 3 0 4 32.74 26.50 2.7354 4 2 1 8 34.98 37.48 2.5650 1 3 1 8 35.35 5.17 2.5390 6 1 1 8 35.55 58.71 2.5251 2 0 2 4 35.95 26.11 2.4982 5 2 1 8 35.98 1.05 2.4961 1 1 2 8 36.02 8.26 2.4933 2 3 1 8 37.25 10.06 2.4140 3 0 2 4 37.70 2.74 2.3862 3 3 1 8 39.17 1.50 2.2999 8 0 0 2 39.56 1.76 2.2779 6 2 1 8 39.65 7.46 2.2732 7 1 1 8 39.94 5.04 2.2570 4 3 1 8 40.84 3.82 2.2096 4 1 2 8 42.28 27.13 2.1375 5 0 2 4 42.31 2.57 2.1363 6 3 0 4 42.57 3.13 2.1237 3 2 2 8 42.69 21.36 2.1182 5 3 1 8 43.51 5.65 2.0801 7 2 1 8 43.54 10.86 2.0788 5 1 2 8 44.17 1.71 2.0505 8 1 1 8 44.30 1.24 2.0448 8 2 0 4 44.35 8.25 2.0424 1 4 1 8 44.61 1.45 2.0311 4 2 2 8 45.13 5.59 2.0090 4 4 0 4 45.21 13.14 2.0057 2 4 1 8 45.86 16.68 1.9788 6 3 1 8 46.61 1.79 1.9487 3 4 1 8 47.73 4.34 1.9054 8 2 1 8 48.52 1.50 1.8764 4 4 1 8 48.55 1.95 1.8752 3 3 2 8 48.88 1.02 1.8632 9 1 1 8 49.04 5.77 1.8577 7 0 2 4 50.09 5.91 1.8212 6 2 2 8 50.40 1.24 1.8105 4 3 2 8 50.65 8.04 1.8021 10 1 0 4 50.89 4.19 1.7943 5 4 1 8 52.15 7.99 1.7538 2 5 0 4 53.26 7.58 1.7198 8 3 1 8 53.42 2.65 1.7153 7 2 2 8 53.98 5.37 1.6986 8 1 2 8 54.14 2.80 1.6940 1 4 2 8 54.32 1.66 1.6888 2 1 3 8 54.88 6.34 1.6728 2 4 2 8 55.22 1.18 1.6635 2 5 1 8 55.55 2.86 1.6543 3 1 3 8 56.10 4.08 1.6393 3 4 2 8 56.46 22.30 1.6299 0 2 3 4 56.70 6.12 1.6235 1 2 3 8 56.87 1.33 1.6190 7 4 1 8 57.10 3.35 1.6132 9 0 2 4 57.42 9.31 1.6048 9 3 1 8 57.52 3.13 1.6022 8 4 0 4 58.11 1.51 1.5875 4 5 1 8 58.11 2.66 1.5875 9 1 2 8 59.92 4.25 1.5437 6 5 0 4 60.22 1.35 1.5368 5 5 1 8 60.24 1.83 1.5363 4 2 3 8 60.37 4.69 1.5333 12 0 0 2 61.08 4.05 1.5172 9 2 2 8 61.67 13.14 1.5041 1 3 3 8 61.85 15.51 1.5000 10 3 1 8 61.91 2.95 1.4988 6 1 3 8 62.35 4.45 1.4892 2 3 3 8 62.37 16.46 1.4888 0 6 0 2 62.43 1.88 1.4876 6 4 2 8 64.12 1.13 1.4523 12 1 1 8 64.94 5.76 1.4361 3 5 2 8 65.35 1.10 1.4281 1 6 1 8 65.36 1.32 1.4278 10 2 2 8 66.25 6.90 1.4108 11 0 2 4 66.55 16.59 1.4052 11 3 1 8 67.10 1.95 1.3948 3 6 1 8 67.18 4.20 1.3935 11 1 2 8 67.63 1.21 1.3852 7 2 3 8 68.05 6.44 1.3778 0 4 3 4 68.27 1.09 1.3739 1 4 3 8 69.41 6.08 1.3540 6 3 3 8 71.48 1.68 1.3198 4 4 3 8 71.50 11.50 1.3195 12 3 1 8 72.11 9.47 1.3098 12 1 2 8 72.12 3.95 1.3096 1 0 4 4 72.73 2.20 1.3003 14 1 0 4 73.02 3.14 1.2958 1 1 4 8 73.81 1.81 1.2839 3 0 4 4 73.90 11.08 1.2825 2 6 2 8 73.95 2.26 1.2818 10 5 0 4 74.94 3.37 1.2672 3 6 2 8 75.27 2.80 1.2625 4 0 4 4 75.75 1.07 1.2557 10 1 3 8 76.67 4.00 1.2429 8 5 2 8 76.95 1.17 1.2390 2 5 3 8 78.25 1.97 1.2217 5 6 2 8 80.16 4.08 1.1973 9 5 2 8 80.61 1.73 1.1918 5 2 4 8 82.70 3.64 1.1668 10 3 3 8 82.90 1.06 1.1646 7 1 4 8 89.60 2.22 1.0941 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.