Fluor-elbaite Burns P C, MacDonald D J, Hawthorne F C The Canadian Mineralogist 32 (1994) 31-41 The crystal chemistry of manganese-bearing elbaite Sample: NP2, split atom model Locality: Nepal _database_code_amcsd 0005348 CELL PARAMETERS: 15.9280 15.9280 7.1370 90.000 90.000 120.000 SPACE GROUP: R3m X-RAY WAVELENGTH: 1.541838 Cell Volume: 1568.082 Density (g/cm3): 3.082 MAX. ABS. INTENSITY / VOLUME**2: 7.228744766 RIR: 0.764 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 11.11 2.66 7.9640 1 1 0 6 13.97 22.24 6.3388 1 0 1 3 17.88 21.26 4.9596 0 2 1 3 19.30 17.26 4.5980 3 0 0 3 21.10 59.09 4.2100 2 1 1 6 22.33 72.77 3.9820 2 2 0 6 25.79 47.84 3.4548 0 1 2 3 26.43 12.77 3.3719 1 3 1 6 28.75 4.07 3.1050 4 0 1 3 29.68 14.86 3.0101 4 1 0 6 30.35 72.25 2.9448 1 2 2 6 30.91 6.09 2.8929 3 2 1 6 34.37 5.72 2.6095 3 1 2 6 34.87 100.00 2.5733 0 5 1 3 36.22 1.45 2.4798 0 4 2 3 36.70 2.43 2.4486 2 4 1 6 37.82 8.18 2.3790 0 0 3 1 38.00 12.56 2.3677 2 3 2 6 38.46 19.30 2.3405 5 1 1 6 39.18 3.07 2.2990 6 0 0 3 41.37 10.67 2.1826 5 0 2 3 41.80 13.82 2.1613 4 3 1 6 42.80 5.44 2.1129 0 3 3 3 42.80 5.52 2.1129 3 0 3 3 42.97 8.04 2.1050 4 2 2 6 44.36 14.08 2.0423 2 2 3 6 44.52 36.67 2.0351 1 5 2 6 44.92 5.97 2.0178 1 6 1 6 45.56 3.70 1.9910 4 4 0 6 47.51 32.88 1.9140 3 4 2 6 47.89 1.51 1.8995 3 5 1 6 48.79 4.55 1.8665 1 4 3 6 49.32 7.93 1.8477 6 2 1 6 49.91 1.12 1.8271 7 1 0 6 50.35 1.02 1.8122 6 1 2 6 51.59 4.15 1.7717 3 3 3 6 51.66 2.88 1.7695 1 0 4 3 53.01 1.65 1.7274 0 2 4 3 54.42 3.05 1.6859 2 6 2 6 55.59 15.71 1.6532 0 6 3 3 55.59 4.10 1.6532 6 0 3 3 56.07 15.93 1.6401 2 7 1 6 57.89 16.80 1.5928 5 5 0 6 58.22 3.12 1.5847 4 0 4 3 58.29 3.13 1.5829 4 5 2 6 58.62 2.18 1.5747 8 1 1 6 59.47 2.00 1.5542 3 2 4 6 59.87 3.97 1.5448 4 6 1 6 60.40 5.00 1.5327 9 0 0 3 60.78 5.68 1.5238 7 2 2 6 61.11 1.23 1.5165 7 3 1 6 61.62 3.61 1.5051 8 2 0 6 61.94 14.99 1.4982 0 5 4 3 63.15 3.15 1.4724 2 4 4 6 63.22 1.74 1.4709 1 8 2 6 64.28 4.32 1.4490 1 7 3 6 64.28 1.02 1.4490 7 1 3 6 64.34 16.74 1.4479 5 1 4 6 64.41 4.87 1.4465 6 4 2 6 65.23 3.68 1.4304 7 4 0 6 65.77 3.65 1.4198 0 1 5 3 65.91 1.93 1.4172 1 9 1 6 65.91 5.47 1.4172 6 5 1 6 66.64 1.38 1.4033 3 6 3 6 66.64 4.61 1.4033 6 3 3 6 66.70 12.27 1.4022 4 3 4 6 68.24 1.49 1.3744 3 8 1 6 69.39 10.29 1.3543 10 0 1 3 70.23 2.92 1.3402 5 6 2 6 71.01 3.31 1.3273 6 6 0 6 71.25 4.29 1.3235 5 5 3 6 71.30 2.74 1.3226 3 5 4 6 71.54 3.45 1.3189 0 4 5 3 72.15 12.17 1.3093 10 1 0 6 72.43 1.37 1.3048 6 2 4 6 72.50 2.45 1.3038 8 3 2 6 72.67 1.82 1.3012 2 3 5 6 72.80 1.18 1.2992 5 7 1 6 73.62 1.46 1.2866 0 10 2 3 73.92 2.16 1.2822 8 4 1 6 74.39 4.31 1.2753 9 3 0 6 74.62 2.42 1.2719 2 8 3 6 74.90 10.45 1.2678 5 0 5 3 75.78 4.10 1.2552 5 4 4 6 77.24 4.44 1.2351 0 11 1 3 78.05 1.77 1.2243 4 8 2 6 78.34 1.46 1.2205 2 10 1 6 79.31 2.54 1.2080 3 4 5 6 80.80 1.97 1.1895 0 0 6 1 81.61 2.70 1.1796 11 1 1 6 84.05 1.30 1.1516 3 0 6 3 84.46 5.12 1.1470 10 1 3 6 86.61 2.34 1.1240 9 3 3 6 86.67 1.00 1.1234 6 5 4 6 89.89 2.09 1.0913 10 0 4 3 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.