Monticellite Lager G A, Meagher E P American Mineralogist 63 (1978) 365-377 High-temperature structural study of six olivines T = 335 deg C, sample is from Crestmore, California, USA _database_code_amcsd 0000647 CELL PARAMETERS: 4.8340 11.1470 6.4090 90.000 90.000 90.000 SPACE GROUP: Pbnm X-RAY WAVELENGTH: 1.541838 Cell Volume: 345.346 Density (g/cm3): 3.051 MAX. ABS. INTENSITY / VOLUME**2: 9.861423301 RIR: 1.052 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 15.90 15.19 5.5735 0 2 0 2 20.02 1.35 4.4349 1 1 0 4 21.12 29.40 4.2056 0 2 1 4 23.05 14.71 3.8593 1 0 1 4 24.37 18.86 3.6518 1 2 0 4 24.41 48.90 3.6469 1 1 1 8 27.84 27.07 3.2045 0 0 2 2 28.12 10.59 3.1729 1 2 1 8 30.34 48.22 2.9459 1 3 0 4 32.12 2.34 2.7868 0 4 0 2 32.22 7.19 2.7781 0 2 2 4 33.48 100.00 2.6767 1 3 1 8 34.53 72.31 2.5974 1 1 2 8 35.11 24.96 2.5556 0 4 1 4 37.20 1.37 2.4170 2 0 0 2 37.24 13.72 2.4143 1 4 0 4 37.33 20.99 2.4086 1 2 2 8 38.10 9.06 2.3621 2 1 0 4 39.90 1.26 2.2593 1 4 1 8 40.69 1.96 2.2175 2 2 0 4 40.71 6.85 2.2164 2 1 1 8 41.64 2.14 2.1688 1 3 2 8 43.17 2.77 2.0956 2 2 1 8 44.73 1.61 2.0261 2 3 0 4 44.77 1.85 2.0245 1 5 0 4 47.07 1.95 1.9305 1 5 1 8 47.10 1.34 1.9297 2 0 2 4 47.22 8.67 1.9247 1 1 3 8 47.84 2.90 1.9014 2 1 2 8 49.43 4.46 1.8440 1 2 3 8 49.95 22.77 1.8259 2 4 0 4 50.02 54.94 1.8235 2 2 2 8 51.19 8.61 1.7844 0 6 1 4 52.08 10.71 1.7560 2 4 1 8 52.79 2.69 1.7342 1 6 0 4 52.94 21.43 1.7295 1 3 3 8 53.54 8.75 1.7115 1 5 2 8 54.09 11.36 1.6955 0 4 3 4 57.33 29.97 1.6073 0 6 2 4 57.52 21.43 1.6022 0 0 4 2 57.61 1.06 1.5999 1 4 3 8 57.82 2.81 1.5948 3 1 0 4 58.10 4.25 1.5877 2 5 1 8 58.15 2.17 1.5864 2 4 2 8 58.23 1.28 1.5844 2 1 3 8 59.74 1.40 1.5479 3 2 0 4 59.76 6.89 1.5476 3 1 1 8 61.29 13.33 1.5125 1 7 0 4 61.64 3.24 1.5047 3 2 1 8 62.86 2.23 1.4783 3 3 0 4 63.79 2.46 1.4590 2 5 2 8 64.71 1.89 1.4405 3 3 1 8 65.36 3.52 1.4277 3 1 2 8 66.42 6.49 1.4075 1 3 4 8 66.72 1.12 1.4019 0 6 3 4 67.10 3.54 1.3949 3 4 0 4 67.16 12.13 1.3938 3 2 2 8 67.42 1.75 1.3890 0 4 4 4 67.48 1.77 1.3880 2 4 3 8 68.61 3.02 1.3678 1 7 2 8 68.89 2.19 1.3630 3 4 1 8 70.34 2.05 1.3384 2 6 2 8 70.52 2.32 1.3355 2 0 4 4 71.10 1.55 1.3260 2 1 4 8 72.73 1.93 1.3003 2 5 3 8 74.13 1.57 1.2790 3 4 2 8 74.21 1.85 1.2780 3 1 3 8 74.22 4.01 1.2778 0 8 2 4 76.21 1.28 1.2492 0 2 5 4 76.96 1.02 1.2390 1 0 5 4 77.22 2.17 1.2354 1 8 2 8 78.59 1.54 1.2173 3 6 0 4 78.72 1.25 1.2156 3 3 3 8 78.95 1.82 1.2127 2 6 3 8 79.20 5.31 1.2094 3 5 2 8 79.27 2.62 1.2085 4 0 0 2 79.60 5.19 1.2043 2 4 4 8 80.28 1.68 1.1959 3 6 1 8 81.06 1.74 1.1863 2 8 1 8 81.98 5.18 1.1754 1 3 5 8 82.61 3.19 1.1680 3 4 3 8 82.91 1.04 1.1645 0 4 5 4 85.79 2.53 1.1326 3 7 0 4 86.01 1.04 1.1303 3 1 4 8 86.51 2.15 1.1250 4 1 2 8 86.64 4.95 1.1236 1 9 2 8 87.56 1.27 1.1142 3 5 3 8 87.65 1.85 1.1133 3 2 4 8 88.10 1.19 1.1087 4 4 0 4 88.16 2.74 1.1082 4 2 2 8 89.00 8.23 1.0999 1 7 4 8 89.17 3.22 1.0982 0 10 1 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.