Mitridatite Moore P B, Araki T Mineralogical Magazine 41 (1977) 527-528 Mitridatite - a remarkable octahedral sheet structure Loclaity: White Elephant pegmatite, Custer, South Dakota, USA _database_code_amcsd 0014469 CELL PARAMETERS: 17.5300 19.3500 11.2500 90.000 95.920 90.000 SPACE GROUP: Aa X-RAY WAVELENGTH: 1.541838 Cell Volume: 3795.711 Density (g/cm3): 3.281 MAX. ABS. INTENSITY / VOLUME**2: 22.21612981 RIR: 2.205 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.15 100.00 8.7183 2 0 0 1 15.84 11.25 5.5950 0 0 2 1 15.86 23.78 5.5881 0 3 1 2 16.41 4.06 5.4030 -1 3 1 2 16.91 4.11 5.2436 1 3 1 2 20.37 13.82 4.3591 4 0 0 1 21.48 2.91 4.1361 -3 3 1 2 22.37 1.25 3.9744 4 2 0 2 23.11 1.41 3.8487 4 1 1 2 25.26 2.73 3.5263 -4 3 1 2 25.41 1.09 3.5059 -2 1 3 2 26.26 1.47 3.3943 -4 2 2 2 27.63 9.83 3.2290 0 3 3 2 27.64 3.95 3.2270 -1 3 3 2 28.14 4.17 3.1712 1 6 0 2 29.29 3.27 3.0496 3 5 1 2 29.49 1.25 3.0294 -5 3 1 2 29.71 1.93 3.0066 3 4 2 2 30.24 4.62 2.9555 -4 1 3 2 30.37 4.36 2.9436 2 3 3 2 30.44 3.05 2.9361 -3 3 3 2 30.77 20.71 2.9061 6 0 0 1 31.73 12.66 2.8200 3 6 0 2 31.99 4.00 2.7975 0 0 4 1 32.18 13.42 2.7813 -1 6 2 2 32.59 16.29 2.7474 -2 0 4 1 32.72 31.52 2.7369 1 6 2 2 32.91 5.89 2.7214 3 3 3 2 33.02 6.79 2.7131 -4 3 3 2 33.16 1.63 2.7015 -2 6 2 2 34.03 5.12 2.6344 -6 3 1 2 34.67 12.12 2.5872 2 0 4 1 34.91 17.74 2.5704 -3 6 2 2 35.93 1.44 2.4994 2 2 4 2 36.06 1.15 2.4905 4 3 3 2 36.27 3.45 2.4766 6 0 2 1 36.32 2.95 2.4732 -4 0 4 1 36.39 2.05 2.4690 3 6 2 2 38.82 2.22 2.3200 -7 3 1 2 39.84 1.53 2.2629 -6 3 3 2 40.58 2.19 2.2232 0 1 5 2 40.64 1.46 2.2202 -1 7 3 2 40.76 2.45 2.2138 -1 8 2 2 41.43 12.92 2.1796 8 0 0 1 42.49 2.46 2.1277 5 6 2 2 42.70 2.31 2.1177 -1 6 4 2 42.77 1.51 2.1143 0 3 5 2 43.05 2.86 2.1010 -1 9 1 2 43.62 1.11 2.0749 1 3 5 2 43.73 1.63 2.0701 6 3 3 2 43.80 2.83 2.0669 -8 3 1 2 45.10 1.00 2.0104 2 3 5 2 46.23 1.62 1.9636 8 0 2 1 47.37 3.80 1.9190 6 0 4 1 47.64 8.22 1.9088 -7 6 2 2 51.25 1.65 1.7824 -4 0 6 1 52.18 1.05 1.7529 -4 2 6 2 52.33 1.50 1.7483 -1 4 6 2 52.34 2.44 1.7479 3 9 3 2 52.45 1.18 1.7447 -1 7 5 2 54.73 1.35 1.6772 -7 6 4 2 55.32 1.98 1.6608 9 6 0 2 56.10 1.35 1.6393 8 0 4 1 56.38 2.14 1.6319 -9 6 2 2 56.59 1.02 1.6263 -7 9 1 2 56.80 12.30 1.6209 -1 6 6 2 57.12 4.98 1.6125 0 12 0 2 57.63 1.07 1.5995 9 3 3 2 57.81 1.23 1.5949 -10 3 3 2 57.82 1.70 1.5946 1 6 6 2 57.90 1.56 1.5927 -3 6 6 2 58.18 1.78 1.5856 2 12 0 2 59.44 5.74 1.5550 9 6 2 2 59.51 3.51 1.5534 -10 0 4 1 60.91 1.01 1.5210 3 6 6 2 61.06 1.42 1.5177 -5 6 6 2 61.29 1.25 1.5123 4 12 0 2 64.09 1.30 1.4530 12 0 0 1 65.89 2.12 1.4176 5 6 6 2 65.99 1.02 1.4157 10 0 4 1 66.10 1.98 1.4136 -7 6 6 2 66.28 1.86 1.4102 -11 6 2 2 66.29 1.71 1.4100 6 12 0 2 67.33 1.63 1.3907 -2 12 4 2 72.13 1.58 1.3095 9 9 3 2 72.56 1.73 1.3027 7 6 6 2 72.83 1.14 1.2986 -9 6 6 2 72.98 1.34 1.2963 8 12 0 2 82.04 1.03 1.1746 -13 6 4 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.