Lepidolite Brown B E American Mineralogist 63 (1978) 332-336 The crystal structure of a 3T lepidolite Locality: Coolgardie, Australia _database_code_amcsd 0000640 CELL PARAMETERS: 5.2000 5.2000 29.7600 90.000 90.000 120.000 SPACE GROUP: P3_112 X-RAY WAVELENGTH: 1.541838 Cell Volume: 696.900 Density (g/cm3): 1.877 MAX. ABS. INTENSITY / VOLUME**2: 2.321385132 RIR: 0.403 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.91 21.26 9.9200 0 0 3 2 17.88 31.19 4.9600 0 0 6 2 19.71 5.96 4.5033 1 0 0 3 19.94 70.77 4.4526 1 0 1 6 20.61 1.10 4.3103 1 0 2 6 21.67 3.92 4.1006 1 0 3 6 23.09 56.16 3.8526 1 0 4 6 24.79 47.63 3.5912 1 0 5 6 26.74 100.00 3.3341 1 0 6 6 26.96 38.44 3.3067 0 0 9 2 28.88 58.78 3.0914 1 0 7 6 31.19 74.75 2.8680 1 0 8 6 33.63 20.86 2.6653 1 0 9 6 34.63 63.93 2.5901 2 -1 1 6 34.63 1.47 2.5901 1 1 1 6 35.04 76.80 2.5612 1 1 2 6 36.18 10.80 2.4828 1 0 10 6 36.22 3.55 2.4800 0 0 12 2 36.61 31.63 2.4544 2 -1 4 6 37.76 37.52 2.3826 1 1 5 6 40.04 7.25 2.2517 2 0 0 3 40.16 10.65 2.2452 2 0 1 6 40.52 9.06 2.2263 2 0 2 6 40.68 1.53 2.2181 2 -1 7 6 41.11 9.81 2.1958 2 0 3 6 41.92 9.59 2.1551 2 0 4 6 42.42 38.53 2.1311 1 1 8 6 42.95 3.84 2.1060 2 0 5 6 44.17 7.53 2.0503 2 0 6 6 45.73 25.65 1.9840 0 0 15 2 46.37 17.00 1.9580 2 -1 10 6 48.94 4.03 1.8611 2 0 9 6 52.90 4.06 1.7307 2 0 11 6 53.32 16.11 1.7182 2 -1 13 6 53.96 4.35 1.6993 2 1 1 6 54.72 1.16 1.6776 3 -1 3 6 54.72 1.23 1.6776 2 1 3 6 55.37 2.05 1.6592 3 -1 4 6 55.37 2.21 1.6592 2 1 4 6 55.87 37.74 1.6457 1 1 14 6 56.21 8.43 1.6365 3 -1 5 6 57.22 9.28 1.6099 2 1 6 6 57.22 9.97 1.6099 3 -1 6 6 57.40 1.27 1.6053 2 0 13 6 58.40 2.48 1.5802 2 1 7 6 58.40 7.41 1.5802 3 -1 7 6 59.57 1.39 1.5520 1 0 18 6 59.75 5.59 1.5478 2 1 8 6 59.75 8.52 1.5478 3 -1 8 6 61.25 1.71 1.5134 3 -1 9 6 61.25 1.15 1.5134 2 1 9 6 61.28 14.78 1.5128 2 -1 16 6 61.80 43.13 1.5011 3 0 0 3 62.59 4.71 1.4842 3 0 3 6 62.81 1.90 1.4794 1 0 19 6 62.90 3.52 1.4775 2 1 10 6 63.96 1.05 1.4555 3 0 5 6 64.13 4.16 1.4521 1 1 17 6 65.04 4.30 1.4340 2 0 16 6 66.14 3.07 1.4129 1 0 20 6 67.81 2.17 1.3820 2 0 17 6 70.14 23.70 1.3417 2 -1 19 6 70.69 9.84 1.3327 2 0 18 6 72.82 13.42 1.2988 2 2 1 6 73.03 1.47 1.2955 1 0 22 6 73.06 11.39 1.2951 4 -2 2 6 73.30 2.75 1.2915 1 1 20 6 73.68 3.06 1.2858 2 0 19 6 73.79 11.13 1.2842 3 0 12 6 74.75 6.65 1.2701 4 -2 5 6 76.31 3.37 1.2479 4 -1 1 6 76.65 3.63 1.2432 2 2 7 6 76.78 4.33 1.2414 2 0 20 6 76.88 2.28 1.2400 0 0 24 2 77.49 1.47 1.2318 3 1 4 6 78.20 3.26 1.2224 3 1 5 6 79.06 2.96 1.2112 3 1 6 6 79.06 1.15 1.2112 4 -1 6 6 79.94 1.59 1.2000 2 -1 22 6 80.00 1.92 1.1994 2 0 21 6 80.08 1.08 1.1984 4 -1 7 6 80.08 2.98 1.1984 3 1 7 6 80.18 7.15 1.1971 3 0 15 6 81.09 1.90 1.1859 3 -1 18 6 81.25 3.93 1.1840 3 1 8 6 81.25 2.06 1.1840 4 -1 8 6 83.44 2.35 1.1584 1 1 23 6 84.04 1.36 1.1517 4 -1 10 6 85.99 1.70 1.1304 2 2 13 6 86.74 1.03 1.1226 4 0 2 6 86.97 2.73 1.1203 3 -1 20 6 87.66 1.18 1.1132 4 0 4 6 87.84 2.20 1.1114 3 0 18 6 88.07 10.36 1.1090 4 -2 14 6 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.