Krupkaite Mumme W G American Mineralogist 60 (1975) 300-308 The crystal structure of krupkaite, CuPbBi3S6, from the Juno Mine at Tennant Creek, Northern Territory, Australia _database_code_amcsd 0000456 CELL PARAMETERS: 4.0030 11.2000 11.5600 90.000 90.000 90.000 SPACE GROUP: Pmc2_1 X-RAY WAVELENGTH: 1.541838 Cell Volume: 518.276 Density (g/cm3): 6.984 MAX. ABS. INTENSITY / VOLUME**2: 81.07636596 RIR: 3.780 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 11.00 3.71 8.0439 0 1 1 2 15.33 13.84 5.7800 0 0 2 1 15.83 1.55 5.6000 0 2 0 2 17.26 17.68 5.1363 0 1 2 2 22.10 51.66 4.0219 0 2 2 2 23.60 25.56 3.7695 1 1 0 4 23.83 9.16 3.7333 0 3 0 2 24.43 100.00 3.6437 0 1 3 2 24.84 52.85 3.5838 1 1 1 4 25.07 84.03 3.5527 0 3 1 2 27.10 21.02 3.2908 1 0 2 2 28.11 11.14 3.1744 0 2 3 2 28.26 62.40 3.1574 1 1 2 4 28.46 5.21 3.1360 0 3 2 2 28.48 86.51 3.1345 1 2 1 4 30.94 4.32 2.8900 0 0 4 1 31.53 94.07 2.8372 1 2 2 4 31.96 5.63 2.8000 0 4 0 2 31.98 2.21 2.7983 0 1 4 2 32.80 18.13 2.7302 1 3 0 4 32.91 4.07 2.7213 0 4 1 2 33.42 1.66 2.6813 0 3 3 2 33.73 38.90 2.6571 1 3 1 4 34.94 51.12 2.5682 0 2 4 2 35.63 15.60 2.5199 0 4 2 2 36.11 21.68 2.4873 1 2 3 4 36.39 5.54 2.4687 1 3 2 4 38.42 25.56 2.3432 1 0 4 2 39.28 26.71 2.2935 1 1 4 4 39.43 2.54 2.2853 0 3 4 2 39.80 6.08 2.2651 0 4 3 2 39.81 1.11 2.2643 0 1 5 2 40.06 26.06 2.2505 1 4 1 4 40.49 6.45 2.2277 1 3 3 4 41.04 3.63 2.1991 0 5 1 2 41.79 11.02 2.1616 1 2 4 4 42.29 7.87 2.1370 0 2 5 2 42.39 21.59 2.1325 1 4 2 4 43.32 4.44 2.0886 0 5 2 2 45.08 3.66 2.0110 0 4 4 2 45.31 36.96 2.0015 2 0 0 2 45.72 1.35 1.9846 1 3 4 4 46.04 35.06 1.9714 1 4 3 4 46.05 10.76 1.9708 1 1 5 4 46.18 11.15 1.9656 0 3 5 2 46.45 13.28 1.9548 1 5 0 4 46.92 25.40 1.9366 0 5 3 2 47.15 4.83 1.9274 1 5 1 4 47.17 11.31 1.9267 0 0 6 1 47.91 1.64 1.8988 0 1 6 2 48.11 1.51 1.8913 2 0 2 2 48.28 10.14 1.8852 1 2 5 4 48.79 8.45 1.8667 0 6 0 2 48.83 1.99 1.8649 2 1 2 4 49.21 5.25 1.8517 1 5 2 4 49.46 3.05 1.8428 0 6 1 2 50.07 2.64 1.8219 0 2 6 2 50.81 1.89 1.7970 1 4 4 4 50.96 10.12 1.7919 2 2 2 4 51.44 2.77 1.7763 0 6 2 2 51.63 3.40 1.7705 0 5 4 2 51.82 14.57 1.7644 1 3 5 4 51.83 1.83 1.7640 2 3 0 4 52.14 21.66 1.7543 2 1 3 4 52.47 19.79 1.7438 2 3 1 4 52.49 5.00 1.7433 1 5 3 4 52.73 11.06 1.7360 1 0 6 2 53.41 5.82 1.7156 1 1 6 4 53.52 2.29 1.7121 0 3 6 2 54.17 2.72 1.6931 2 2 3 4 54.22 1.28 1.6918 1 6 0 4 54.38 1.38 1.6872 2 3 2 4 54.84 5.39 1.6739 1 6 1 4 55.41 2.26 1.6582 1 2 6 4 55.88 1.20 1.6454 2 0 4 2 56.51 6.10 1.6286 1 4 5 4 56.52 1.79 1.6283 2 4 0 4 57.13 1.43 1.6124 2 4 1 4 58.12 1.79 1.5872 0 4 6 2 58.21 2.47 1.5849 0 7 1 2 58.25 1.34 1.5840 0 2 7 2 58.46 18.01 1.5787 2 2 4 4 58.65 2.93 1.5742 1 3 6 4 58.90 2.71 1.5680 0 6 4 2 58.93 5.40 1.5673 2 4 2 4 59.99 3.11 1.5420 0 7 2 2 61.28 9.53 1.5126 1 1 7 4 61.39 6.96 1.5103 0 3 7 2 61.60 1.09 1.5057 2 3 4 4 61.86 2.77 1.4999 2 4 3 4 62.19 2.05 1.4927 1 5 5 4 62.77 1.73 1.4802 2 5 1 4 63.09 2.92 1.4736 1 7 1 4 63.12 3.41 1.4729 1 2 7 4 63.70 3.67 1.4608 2 2 5 4 63.71 1.66 1.4607 0 5 6 2 63.74 5.06 1.4600 1 6 4 4 64.12 1.40 1.4524 0 6 5 2 64.48 2.17 1.4451 2 5 2 4 64.79 8.71 1.4389 1 7 2 4 65.09 1.69 1.4331 0 1 8 2 65.64 3.10 1.4225 0 4 7 2 65.84 1.92 1.4186 2 4 4 4 66.69 6.19 1.4024 2 3 5 4 66.87 1.08 1.3992 0 2 8 2 67.27 13.67 1.3917 2 5 3 4 67.48 6.42 1.3881 2 0 6 2 67.58 3.75 1.3862 1 7 3 4 68.06 1.01 1.3775 2 1 6 4 68.36 3.53 1.3722 1 5 6 4 68.76 3.14 1.3653 1 6 5 4 68.77 4.81 1.3651 2 6 0 4 69.02 2.29 1.3607 0 8 2 2 69.31 1.93 1.3557 2 6 1 4 69.69 1.06 1.3493 1 1 8 4 69.81 1.45 1.3473 2 2 6 4 70.20 3.23 1.3406 0 6 6 2 70.22 1.25 1.3403 1 4 7 4 70.94 1.72 1.3286 2 6 2 4 71.09 2.16 1.3261 2 5 4 4 71.37 1.46 1.3215 1 8 0 4 71.39 9.09 1.3213 1 7 4 4 71.42 5.41 1.3208 1 2 8 4 71.70 1.99 1.3163 3 1 1 4 71.73 1.29 1.3158 0 8 3 2 71.91 2.22 1.3130 1 8 1 4 72.67 1.55 1.3010 2 3 6 4 73.30 2.88 1.2915 3 1 2 4 73.41 3.77 1.2899 3 2 1 4 74.33 2.93 1.2761 0 1 9 2 74.66 1.67 1.2712 1 6 6 4 74.99 4.86 1.2665 3 2 2 4 75.34 5.21 1.2615 1 5 7 4 75.45 1.69 1.2599 0 8 4 2 75.69 1.10 1.2565 3 3 0 4 76.22 2.07 1.2491 3 3 1 4 76.62 1.31 1.2436 2 4 6 4 76.70 1.68 1.2425 2 7 1 4 77.08 1.76 1.2373 0 9 1 2 77.30 1.97 1.2343 2 6 4 4 77.62 1.48 1.2301 3 2 3 4 78.17 3.43 1.2227 1 4 8 4 78.26 2.38 1.2215 2 7 2 4 79.04 2.08 1.2114 3 0 4 2 79.50 5.30 1.2056 2 3 7 4 79.60 2.48 1.2044 3 1 4 4 80.10 2.32 1.1981 3 4 1 4 80.89 2.16 1.1883 1 9 0 4 81.41 1.31 1.1821 1 9 1 4 81.44 1.81 1.1817 1 6 7 4 81.59 1.37 1.1799 2 5 6 4 81.65 2.02 1.1792 3 4 2 4 81.96 1.17 1.1755 2 6 5 4 82.65 1.92 1.1675 0 4 9 2 82.85 1.39 1.1652 2 1 8 4 83.10 1.37 1.1622 1 3 9 4 83.13 1.69 1.1620 1 5 8 4 83.35 2.71 1.1595 2 4 7 4 84.22 4.19 1.1497 3 4 3 4 84.23 1.14 1.1496 3 1 5 4 84.52 1.62 1.1464 3 5 0 4 85.86 1.29 1.1318 3 2 5 4 86.49 2.09 1.1253 2 8 2 4 86.92 1.98 1.1208 1 4 9 4 87.60 2.95 1.1139 2 6 6 4 87.92 2.85 1.1106 1 0 10 2 88.58 2.26 1.1040 3 3 5 4 89.04 1.22 1.0995 2 8 3 4 89.30 1.64 1.0969 3 0 6 2 89.42 1.50 1.0958 0 9 5 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.