Enstatite Yang H, Ghose S Physics and Chemistry of Minerals 22 (1995) 300-310 High temperature single crystal X-ray diffraction studies of the ortho-proto phase transition in enstatite, Mg2Si2O6 at 1360 K Sample: T = 296 K _database_code_amcsd 0007919 CELL PARAMETERS: 18.2510 8.8140 5.1810 90.000 90.000 90.000 SPACE GROUP: Pbca X-RAY WAVELENGTH: 1.541838 Cell Volume: 833.438 Density (g/cm3): 3.200 MAX. ABS. INTENSITY / VOLUME**2: 5.868332840 RIR: 0.597 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 13.97 1.71 6.3397 2 1 0 4 20.15 12.00 4.4070 0 2 0 2 20.47 3.37 4.3385 1 1 1 8 22.16 2.53 4.0117 2 1 1 8 27.01 33.89 3.3015 1 2 1 8 27.95 19.75 3.1918 4 1 1 8 28.15 49.83 3.1699 4 2 0 4 28.33 100.00 3.1505 2 2 1 8 30.41 47.92 2.9391 3 2 1 8 31.10 93.00 2.8754 6 1 0 4 31.66 23.76 2.8264 5 1 1 8 32.00 2.74 2.7966 2 3 0 4 33.13 30.18 2.7039 4 2 1 8 35.47 46.81 2.5310 1 3 1 8 35.71 4.00 2.5142 6 1 1 8 36.04 65.81 2.4920 2 0 2 4 36.36 28.19 2.4709 5 2 1 8 36.37 1.41 2.4702 4 3 0 4 36.51 8.45 2.4610 2 3 1 8 37.74 7.15 2.3834 3 0 2 4 38.20 5.94 2.3562 3 3 1 8 39.15 1.47 2.3008 3 1 2 8 39.50 2.07 2.2814 8 0 0 2 40.04 5.89 2.2517 7 1 1 8 40.45 4.37 2.2297 4 3 1 8 41.37 2.06 2.1826 4 1 2 8 42.79 1.74 2.1132 6 3 0 4 42.81 30.61 2.1126 5 0 2 4 43.15 2.98 2.0965 3 2 2 8 43.21 20.94 2.0935 5 3 1 8 43.97 6.45 2.0591 7 2 1 8 44.08 13.25 2.0544 5 1 2 8 44.60 3.54 2.0317 8 1 1 8 44.73 1.29 2.0260 8 2 0 4 44.98 9.62 2.0153 1 4 1 8 45.73 5.81 1.9842 4 4 0 4 45.84 13.10 1.9794 2 4 1 8 46.41 26.41 1.9567 6 3 1 8 47.25 1.70 1.9237 3 4 1 8 48.23 5.65 1.8869 8 2 1 8 49.17 2.18 1.8530 4 4 1 8 49.23 1.92 1.8509 3 3 2 8 49.61 5.20 1.8377 7 0 2 4 50.71 5.71 1.8002 6 2 2 8 51.11 7.59 1.7872 10 1 0 4 51.56 7.52 1.7726 5 4 1 8 52.90 9.19 1.7308 2 5 0 4 53.87 8.67 1.7019 8 3 1 8 54.07 5.42 1.6961 7 2 2 8 54.61 8.04 1.6807 8 1 2 8 54.94 1.70 1.6714 1 4 2 8 55.12 2.00 1.6663 2 1 3 8 55.68 5.37 1.6507 2 4 2 8 56.02 2.60 1.6416 2 5 1 8 56.35 4.15 1.6326 3 1 3 8 56.91 2.57 1.6180 3 4 2 8 57.30 17.71 1.6079 0 2 3 4 57.54 11.98 1.6017 1 2 3 8 57.58 1.14 1.6006 7 4 1 8 57.74 7.34 1.5968 9 0 2 4 58.06 11.45 1.5886 9 3 1 8 58.21 2.29 1.5849 8 4 0 4 58.77 2.47 1.5712 9 1 2 8 58.93 1.66 1.5673 4 5 1 8 60.72 6.83 1.5252 6 5 0 4 60.91 6.88 1.5209 12 0 0 2 61.05 2.09 1.5177 5 5 1 8 61.11 1.25 1.5165 4 2 3 8 61.79 2.96 1.5013 9 2 2 8 62.54 23.59 1.4853 10 3 1 8 62.60 28.41 1.4839 1 3 3 8 62.76 2.23 1.4805 6 1 3 8 63.19 1.12 1.4715 5 2 3 8 63.28 1.65 1.4696 6 4 2 8 63.29 3.66 1.4694 2 3 3 8 63.31 24.03 1.4690 0 6 0 2 65.91 9.01 1.4173 3 5 2 8 66.22 1.10 1.4113 7 4 2 8 66.52 1.15 1.4056 7 5 1 8 66.98 12.14 1.3972 11 0 2 4 67.28 24.73 1.3916 11 3 1 8 67.93 5.85 1.3799 11 1 2 8 68.00 2.10 1.3786 5 3 3 8 68.11 1.03 1.3766 3 6 1 8 68.57 3.29 1.3686 7 2 3 8 69.10 5.74 1.3593 0 4 3 4 69.32 2.63 1.3555 1 4 3 8 70.41 6.77 1.3372 6 3 3 8 71.06 1.68 1.3266 3 4 3 8 72.29 12.29 1.3070 12 3 1 8 72.57 1.49 1.3027 4 4 3 8 72.92 10.46 1.2973 12 1 2 8 73.05 1.01 1.2952 13 2 1 8 73.21 1.89 1.2929 7 3 3 8 73.27 5.55 1.2920 1 0 4 4 73.42 3.07 1.2896 14 1 0 4 74.18 3.56 1.2783 1 1 4 8 74.89 2.48 1.2679 10 5 0 4 74.97 1.25 1.2669 3 0 4 4 75.06 12.78 1.2655 2 6 2 8 76.05 1.00 1.2514 14 1 1 8 76.12 4.62 1.2506 3 6 2 8 76.44 3.92 1.2460 4 0 4 4 76.74 1.02 1.2419 10 1 3 8 77.59 1.05 1.2305 13 3 1 8 77.76 4.98 1.2282 8 5 2 8 78.19 1.38 1.2225 2 5 3 8 79.22 2.36 1.2091 5 1 4 8 79.23 2.48 1.2090 3 5 3 8 79.46 3.61 1.2061 5 6 2 8 81.30 5.18 1.1835 9 5 2 8 81.50 1.17 1.1810 6 1 4 8 81.89 2.16 1.1764 5 2 4 8 83.29 1.24 1.1601 5 7 1 8 83.86 2.33 1.1537 10 3 3 8 84.18 1.52 1.1501 7 1 4 8 84.42 1.30 1.1474 7 6 2 8 85.04 1.58 1.1407 16 0 0 2 86.38 1.47 1.1264 8 0 4 4 88.49 1.01 1.1049 12 2 3 8 89.51 1.81 1.0950 11 5 2 8 89.89 1.18 1.0913 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.