Galenobismutite Olsen L A, Balic-Zunic T, Makovicky E, Ullrich A, Miletich R Physics and Chemistry of Minerals 34 (2007) 467-475 Hydrostatic compression of galenobismutite (PbBi2S4): elastic properties and high-pressure crystal chemistry Locality: synthetic Sample: P = 1.39 GPa _database_code_amcsd 0009089 CELL PARAMETERS: 11.6682 14.4350 4.0424 90.000 90.000 90.000 SPACE GROUP: Pnam X-RAY WAVELENGTH: 1.541838 Cell Volume: 680.863 Density (g/cm3): 7.349 MAX. ABS. INTENSITY / VOLUME**2: 159.1353514 RIR: 7.051 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 12.26 1.56 7.2175 0 2 0 2 19.57 9.06 4.5372 2 2 0 4 19.96 2.07 4.4483 1 3 0 4 22.85 8.62 3.8926 0 1 1 4 23.69 3.18 3.7555 3 1 0 4 24.10 2.13 3.6926 1 1 1 8 24.67 45.64 3.6088 0 4 0 2 25.84 16.26 3.4476 1 4 0 4 26.02 100.00 3.4239 3 2 0 4 26.40 64.97 3.3760 1 2 1 8 26.83 43.17 3.3227 2 0 1 4 27.55 20.16 3.2380 2 1 1 8 29.53 3.09 3.0248 3 3 0 4 29.60 3.82 3.0182 2 2 1 8 29.87 37.95 2.9916 1 3 1 8 31.28 1.66 2.8593 4 1 0 4 32.54 9.98 2.7514 3 1 1 8 32.75 16.02 2.7342 2 3 1 8 33.12 8.98 2.7045 4 2 0 4 33.89 2.08 2.6454 3 4 0 4 34.18 15.38 2.6232 1 4 1 8 34.67 1.82 2.5875 2 5 0 4 36.00 2.73 2.4945 4 3 0 4 36.77 30.78 2.4444 2 4 1 8 37.12 7.67 2.4218 3 3 1 8 37.38 1.39 2.4058 0 6 0 2 38.04 21.37 2.3655 4 0 1 4 38.31 1.69 2.3494 0 5 1 4 38.57 1.34 2.3343 4 1 1 8 38.85 1.93 2.3182 3 5 0 4 39.10 1.51 2.3037 5 1 0 4 39.11 1.59 2.3031 1 5 1 8 40.11 2.22 2.2478 4 2 1 8 40.56 13.48 2.2241 2 6 0 4 41.43 15.44 2.1793 2 5 1 8 42.59 2.41 2.1228 4 3 1 8 44.27 11.84 2.0460 3 6 0 4 44.51 9.19 2.0357 1 6 1 8 44.84 22.91 2.0212 0 0 2 2 45.31 14.33 2.0015 5 1 1 8 45.87 10.07 1.9783 4 4 1 8 46.33 1.70 1.9596 5 4 0 4 46.61 14.81 1.9487 2 6 1 8 46.67 12.46 1.9462 5 2 1 8 46.71 9.04 1.9447 6 0 0 2 47.16 1.80 1.9273 6 1 0 4 48.88 10.31 1.8633 5 3 1 8 49.08 6.84 1.8560 4 6 0 4 49.36 1.42 1.8463 2 2 2 8 49.84 6.12 1.8297 4 5 1 8 50.28 5.30 1.8146 1 7 1 8 50.63 5.44 1.8030 6 3 0 4 51.23 9.10 1.7832 1 8 0 4 51.85 10.91 1.7634 0 4 2 4 51.85 2.49 1.7633 5 4 1 8 52.48 4.29 1.7436 1 4 2 8 52.58 26.12 1.7406 3 2 2 8 53.53 9.34 1.7119 6 4 0 4 54.39 3.96 1.6867 4 6 1 8 56.40 4.22 1.6315 1 8 1 8 56.87 3.08 1.6190 4 2 2 8 58.80 1.11 1.5704 4 3 2 8 59.47 3.01 1.5544 4 7 1 8 59.76 1.12 1.5475 5 6 1 8 61.25 1.57 1.5133 7 4 0 4 61.53 2.61 1.5070 7 2 1 8 62.05 6.42 1.4958 2 6 2 8 64.51 1.62 1.4444 2 9 1 8 64.57 1.39 1.4434 5 7 1 8 64.84 6.51 1.4379 3 6 2 8 65.01 1.21 1.4346 4 8 1 8 65.38 1.46 1.4274 5 8 0 4 66.03 1.73 1.4148 6 7 0 4 66.75 5.32 1.4014 6 0 2 4 66.76 2.92 1.4012 2 10 0 4 67.11 1.10 1.3948 6 1 2 8 67.26 1.82 1.3921 3 9 1 8 68.65 4.23 1.3671 4 6 2 8 68.73 5.07 1.3658 8 1 1 8 69.09 2.84 1.3595 7 5 1 8 69.88 3.85 1.3460 5 8 1 8 69.92 3.57 1.3455 6 3 2 8 70.41 5.91 1.3372 1 8 2 8 71.00 3.54 1.3275 4 9 1 8 71.22 3.67 1.3240 2 10 1 8 71.51 4.92 1.3194 8 3 1 8 71.71 3.18 1.3161 1 2 3 8 71.92 2.08 1.3129 2 0 3 4 72.26 1.01 1.3075 2 1 3 8 72.33 6.47 1.3063 6 4 2 8 73.15 1.71 1.2938 4 10 0 4 73.31 1.52 1.2913 9 1 0 4 73.42 1.92 1.2896 1 3 3 8 74.34 1.99 1.2760 9 2 0 4 74.98 1.02 1.2666 2 3 3 8 75.80 1.17 1.2550 1 4 3 8 76.29 1.92 1.2482 0 11 1 4 76.80 1.15 1.2411 1 11 1 8 76.94 1.23 1.2392 8 5 1 8 77.29 2.24 1.2344 7 7 1 8 77.34 2.65 1.2338 2 4 3 8 77.46 2.69 1.2322 4 10 1 8 78.05 2.07 1.2244 7 8 0 4 78.13 1.94 1.2233 4 0 3 4 79.05 1.27 1.2114 7 4 2 8 80.22 1.18 1.1966 1 12 0 4 80.34 1.56 1.1951 2 5 3 8 81.36 1.05 1.1827 9 5 0 4 82.46 1.19 1.1697 1 6 3 8 82.78 1.29 1.1660 5 8 2 8 83.03 1.82 1.1631 5 1 3 8 83.38 1.60 1.1591 6 7 2 8 83.43 1.39 1.1585 4 4 3 8 83.97 2.03 1.1525 2 6 3 8 84.02 1.75 1.1520 5 2 3 8 84.05 2.66 1.1516 2 10 2 8 84.43 1.75 1.1474 1 12 1 8 84.89 1.24 1.1423 8 7 1 8 85.66 1.49 1.1340 5 3 3 8 87.86 1.28 1.1112 7 9 1 8 89.84 1.05 1.0918 10 3 1 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.