Angelaite Topa D, Makovicky E, Putz H The Canadian Mineralogist 48 (2010) 145-153 The crystal structure of angelaite, Cu2AgPbBiS4 Locality: Angela mine, Los Manantiales district, Chubut province, Argentina _database_code_amcsd 0006325 CELL PARAMETERS: 12.7340 4.0320 14.6330 90.000 90.000 90.000 SPACE GROUP: Pnma X-RAY WAVELENGTH: 1.541838 Cell Volume: 751.309 Density (g/cm3): 6.878 MAX. ABS. INTENSITY / VOLUME**2: 72.80182895 RIR: 3.446 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.21 8.42 9.6060 1 0 1 4 15.18 2.26 5.8383 2 0 1 4 18.47 13.14 4.8030 2 0 2 4 19.49 8.13 4.5549 1 0 3 4 22.88 1.40 3.8871 0 1 1 4 22.97 7.43 3.8720 2 0 3 4 23.94 8.04 3.7178 1 1 1 8 24.24 63.40 3.6715 3 0 2 4 24.33 40.29 3.6583 0 0 4 2 25.33 34.86 3.5160 1 0 4 4 26.16 36.27 3.4064 2 1 0 4 26.19 22.49 3.4029 1 1 2 8 26.87 79.90 3.3177 2 1 1 8 27.86 1.74 3.2020 3 0 3 4 28.03 7.06 3.1835 4 0 0 2 28.70 48.37 3.1107 4 0 1 4 28.73 8.69 3.1077 0 1 3 4 28.91 2.26 3.0881 2 1 2 8 29.59 100.00 3.0191 1 1 3 8 30.63 11.28 2.9191 4 0 2 4 31.20 8.91 2.8667 3 1 1 8 31.36 6.20 2.8522 1 0 5 4 32.05 40.85 2.7928 2 1 3 8 32.31 8.60 2.7711 3 0 4 4 33.00 2.33 2.7147 3 1 2 8 33.62 35.23 2.6659 4 0 3 4 33.83 43.42 2.6500 1 1 4 8 35.79 3.11 2.5091 5 0 1 4 35.81 1.69 2.5075 3 1 3 8 35.94 3.05 2.4986 4 1 0 4 36.03 27.24 2.4930 2 1 4 8 36.48 12.59 2.4629 4 1 1 8 37.32 10.69 2.4094 3 0 5 4 37.39 2.12 2.4052 5 0 2 4 38.06 1.69 2.3645 4 1 2 8 38.67 6.79 2.3285 1 1 5 8 39.46 5.96 2.2837 3 1 4 8 39.57 6.74 2.2775 2 0 6 4 39.93 5.99 2.2576 5 0 3 4 40.64 15.27 2.2198 2 1 5 8 42.43 42.35 2.1303 5 1 1 8 42.60 2.85 2.1223 6 0 0 2 42.76 6.73 2.1146 3 0 6 4 43.07 4.81 2.1004 6 0 1 4 43.77 27.36 2.0683 3 1 5 8 43.83 11.15 2.0656 5 1 2 8 43.88 1.21 2.0633 4 1 4 8 43.97 4.83 2.0593 1 1 6 8 44.96 40.38 2.0160 0 2 0 2 45.68 11.69 1.9861 2 0 7 4 45.76 10.33 1.9830 2 1 6 8 46.00 1.07 1.9730 1 2 1 8 46.08 12.92 1.9698 5 1 3 8 46.93 6.33 1.9360 4 0 6 4 47.32 4.45 1.9212 5 0 5 4 48.47 6.32 1.8780 6 1 0 4 48.55 6.84 1.8753 3 0 7 4 48.62 2.03 1.8727 3 1 6 8 48.89 4.00 1.8628 6 1 1 8 49.00 1.73 1.8589 2 2 2 8 49.09 9.17 1.8558 0 1 7 4 49.09 12.49 1.8556 5 1 4 8 49.44 1.37 1.8435 1 2 3 8 49.64 8.51 1.8364 1 1 7 8 49.66 6.14 1.8358 6 0 4 4 50.40 8.18 1.8105 1 0 8 4 50.56 3.23 1.8052 7 0 1 4 51.08 1.81 1.7881 2 2 3 8 51.73 14.48 1.7671 3 2 2 8 51.78 8.85 1.7656 0 2 4 4 51.79 3.85 1.7654 7 0 2 4 51.91 1.35 1.7614 5 0 6 4 52.02 6.27 1.7580 2 0 8 4 52.19 9.04 1.7526 6 1 3 8 52.31 7.85 1.7489 1 2 4 8 52.36 1.43 1.7474 4 0 7 4 52.43 10.74 1.7453 4 1 6 8 52.78 1.94 1.7344 5 1 5 8 53.32 2.55 1.7181 6 0 5 4 53.78 3.29 1.7045 7 0 3 4 53.82 1.56 1.7032 4 2 0 4 54.22 13.50 1.6918 4 2 1 8 54.96 3.96 1.6707 6 1 4 8 55.39 3.29 1.6589 4 2 2 8 55.65 3.59 1.6517 1 1 8 8 55.85 2.20 1.6463 1 2 5 8 56.44 2.09 1.6302 3 2 4 8 57.11 3.13 1.6128 1 0 9 4 57.30 11.87 1.6080 4 2 3 8 57.94 2.20 1.5918 8 0 0 2 58.38 1.50 1.5806 6 1 5 8 59.82 3.81 1.5462 3 2 5 8 59.86 1.01 1.5451 5 2 2 8 59.86 1.31 1.5450 7 0 5 4 61.03 1.50 1.5183 3 0 9 4 61.39 7.82 1.5103 7 1 4 8 61.42 3.77 1.5095 2 2 6 8 61.68 2.28 1.5037 5 2 3 8 62.35 3.48 1.4893 6 0 7 4 62.52 1.47 1.4857 5 0 8 4 62.76 3.81 1.4806 8 1 0 4 62.98 4.46 1.4759 4 1 8 8 63.12 1.45 1.4730 8 1 1 8 63.66 1.64 1.4617 6 2 0 4 63.77 3.59 1.4596 8 0 4 4 63.79 3.40 1.4592 3 2 6 8 64.02 1.96 1.4544 6 2 1 8 64.34 1.02 1.4480 4 0 9 4 65.44 1.44 1.4261 2 0 10 4 65.72 8.47 1.4209 3 1 9 8 66.03 6.40 1.4148 2 2 7 8 66.98 4.20 1.3971 6 1 7 8 67.02 3.16 1.3964 4 2 6 8 67.32 2.56 1.3908 5 2 5 8 68.31 3.33 1.3731 3 2 7 8 68.35 1.27 1.3724 8 1 4 8 68.42 2.36 1.3713 7 1 6 8 68.46 1.14 1.3704 5 0 9 4 68.63 1.44 1.3676 1 1 10 8 69.22 3.69 1.3573 6 2 4 8 69.82 4.83 1.3470 1 2 8 8 69.95 2.15 1.3449 7 2 1 8 69.97 1.55 1.3445 2 1 10 8 70.96 2.16 1.3281 7 2 2 8 71.16 3.76 1.3250 2 2 8 8 71.40 1.02 1.3211 8 1 5 8 71.49 1.03 1.3196 9 0 4 4 71.78 1.62 1.3150 2 3 0 4 71.79 1.20 1.3148 1 3 2 8 71.88 8.79 1.3134 9 1 2 8 72.12 2.99 1.3097 2 3 1 8 72.25 1.45 1.3077 6 2 5 8 72.60 1.76 1.3022 2 0 11 4 72.64 2.36 1.3016 7 2 3 8 73.46 4.40 1.2891 1 3 3 8 74.49 1.67 1.2738 9 0 5 4 74.77 2.35 1.2697 2 3 3 8 74.85 1.71 1.2686 10 0 1 4 75.00 1.52 1.2664 8 0 7 4 75.05 1.22 1.2656 8 1 6 8 75.21 3.20 1.2633 0 1 11 4 75.26 4.86 1.2627 4 1 10 8 75.49 2.27 1.2594 1 2 9 8 75.77 2.20 1.2554 1 3 4 8 76.21 1.49 1.2493 8 2 0 4 76.95 1.11 1.2391 2 1 11 8 77.07 2.13 1.2375 2 3 4 8 77.74 7.48 1.2285 7 1 8 8 77.90 1.18 1.2263 7 2 5 8 78.93 1.18 1.2128 3 2 9 8 79.15 1.14 1.2101 10 1 1 8 79.30 1.49 1.2082 8 1 7 8 79.99 1.16 1.1995 2 3 5 8 80.12 1.35 1.1979 10 1 2 8 80.12 2.76 1.1979 6 2 7 8 80.27 1.30 1.1960 5 2 8 8 81.19 3.63 1.1847 5 3 1 8 81.40 2.90 1.1822 8 2 4 8 82.11 3.28 1.1737 3 3 5 8 82.15 1.41 1.1733 5 3 2 8 82.63 1.09 1.1677 10 0 5 4 82.93 1.31 1.1643 2 2 10 8 83.10 1.92 1.1623 1 1 12 8 83.52 1.00 1.1575 2 3 6 8 83.76 1.40 1.1548 5 3 3 8 84.79 1.50 1.1434 11 0 2 4 85.52 1.00 1.1355 6 3 0 4 85.72 1.04 1.1334 5 2 9 8 85.99 1.35 1.1305 0 3 7 4 85.99 1.28 1.1305 5 3 4 8 86.31 2.10 1.1272 6 0 11 4 88.39 1.34 1.1059 6 3 3 8 88.58 1.61 1.1040 4 3 6 8 89.28 1.94 1.0972 7 1 10 8 89.41 1.31 1.0959 4 1 12 8 89.63 1.61 1.0938 2 2 11 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.