Miharaite Petrova I V, Pobedimskaya E A, Bryzgalov I A Doklady Akademii Nauk SSSR 299 (1988) 123-127 Crystal structure of micharaite Cu4FePbBiS6 _database_code_amcsd 0012478 CELL PARAMETERS: 10.8800 12.0030 3.8740 90.000 90.000 90.000 SPACE GROUP: Pb2_1m X-RAY WAVELENGTH: 1.541838 Cell Volume: 505.916 Density (g/cm3): 6.029 MAX. ABS. INTENSITY / VOLUME**2: 52.59124518 RIR: 2.840 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.98 37.26 8.0612 1 1 0 2 16.29 19.30 5.4400 2 0 0 2 16.87 22.66 5.2550 1 2 0 2 17.90 30.25 4.9549 2 1 0 2 22.96 2.21 3.8740 0 0 1 2 23.69 43.77 3.7551 1 3 0 2 25.51 57.22 3.4917 1 1 1 4 25.66 30.61 3.4717 3 1 0 2 27.40 93.03 3.2548 0 2 1 2 27.68 6.53 3.2231 2 3 0 2 28.28 5.09 3.1556 2 0 1 4 28.63 7.98 3.1183 1 2 1 4 28.76 75.83 3.1039 3 2 0 2 29.26 100.00 3.0519 2 1 1 4 29.77 67.53 3.0008 0 4 0 1 30.91 19.02 2.8927 1 4 0 2 32.04 6.89 2.7930 2 2 1 4 33.23 32.22 2.6963 1 3 1 4 33.34 1.82 2.6871 3 3 0 2 33.79 28.17 2.6527 4 1 0 2 33.86 69.06 2.6476 3 0 1 4 34.12 5.00 2.6275 2 4 0 2 34.70 8.85 2.5854 3 1 1 4 36.26 32.32 2.4777 2 3 1 4 36.26 8.78 2.4774 4 2 0 2 37.11 6.10 2.4223 3 2 1 4 37.93 17.18 2.3723 0 4 1 2 38.40 3.82 2.3442 1 5 0 2 40.09 7.42 2.2494 4 3 0 2 40.52 2.76 2.2261 4 0 1 4 40.87 3.69 2.2079 3 3 1 4 41.10 24.39 2.1963 2 5 0 2 41.25 40.21 2.1888 4 1 1 4 41.50 2.12 2.1760 5 0 0 2 41.53 22.29 2.1745 2 4 1 4 42.21 8.80 2.1411 5 1 0 2 43.35 5.82 2.0871 4 2 1 4 44.28 3.47 2.0457 5 2 0 2 45.21 15.14 2.0056 1 5 1 4 45.30 6.84 2.0018 3 5 0 2 45.33 1.04 2.0005 0 6 0 1 45.70 38.96 1.9853 3 4 1 4 46.14 1.35 1.9675 1 6 0 2 46.69 18.67 1.9453 4 3 1 4 46.91 42.40 1.9370 0 0 2 2 47.57 3.80 1.9116 5 3 0 2 47.59 15.13 1.9106 2 5 1 4 47.95 6.71 1.8972 5 0 1 4 48.32 2.16 1.8834 1 1 2 4 48.48 1.96 1.8776 2 6 0 2 48.58 1.69 1.8739 5 1 1 4 49.98 1.94 1.8248 2 0 2 4 50.20 2.45 1.8175 1 2 2 4 50.32 7.64 1.8133 6 0 0 2 50.45 6.85 1.8090 5 2 1 4 50.60 3.95 1.8040 2 1 2 4 50.72 14.02 1.7999 4 5 0 2 50.93 3.49 1.7930 6 1 0 2 51.09 14.41 1.7878 4 4 1 4 51.38 2.73 1.7784 3 5 1 4 51.41 9.84 1.7775 0 6 1 2 52.14 10.23 1.7542 1 6 1 4 52.22 6.15 1.7517 3 6 0 2 53.21 9.01 1.7215 1 3 2 4 53.45 2.06 1.7142 5 3 1 4 54.15 9.39 1.6938 1 7 0 2 54.23 6.00 1.6915 3 1 2 4 54.29 7.38 1.6896 2 6 1 4 55.33 1.69 1.6603 2 3 2 4 55.65 5.90 1.6516 6 3 0 2 55.96 20.30 1.6433 3 2 2 4 56.37 4.53 1.6323 4 5 1 4 56.55 17.82 1.6274 0 4 2 2 56.56 7.37 1.6272 6 1 1 4 57.13 2.90 1.6122 5 5 0 2 57.16 6.85 1.6116 4 6 0 2 57.24 5.14 1.6095 1 4 2 4 57.76 5.07 1.5961 3 6 1 4 58.24 13.12 1.5841 6 2 1 4 59.05 9.36 1.5643 4 1 2 4 59.27 1.74 1.5591 2 4 2 4 59.47 1.07 1.5543 7 0 0 2 59.57 6.78 1.5520 6 4 0 2 59.57 1.75 1.5520 1 7 1 4 60.02 2.33 1.5414 7 1 0 2 60.69 3.29 1.5260 4 2 2 4 60.98 1.81 1.5193 6 3 1 4 61.55 10.53 1.5066 2 7 1 4 61.84 1.30 1.5004 0 8 0 1 62.17 1.58 1.4932 1 5 2 4 62.39 4.01 1.4885 5 5 1 4 62.41 1.66 1.4880 4 6 1 4 62.49 1.14 1.4863 1 8 0 2 63.37 3.26 1.4678 4 3 2 4 64.10 10.77 1.4527 2 5 2 4 64.30 1.22 1.4488 7 3 0 2 64.39 1.07 1.4468 5 0 2 4 64.42 1.14 1.4464 2 8 0 2 64.61 1.03 1.4425 7 0 1 4 64.92 3.99 1.4364 5 1 2 4 65.13 6.66 1.4322 7 1 1 4 66.47 1.70 1.4065 5 2 2 4 66.69 5.88 1.4026 7 2 1 4 66.87 2.55 1.3991 0 8 1 2 67.26 3.34 1.3920 3 5 2 4 67.57 1.43 1.3864 3 8 0 2 67.92 2.42 1.3801 7 4 0 2 68.11 4.22 1.3766 5 6 1 4 69.03 2.16 1.3606 5 3 2 4 69.15 4.67 1.3584 4 7 1 4 69.24 3.85 1.3570 7 3 1 4 69.33 2.21 1.3555 6 5 1 4 69.35 1.67 1.3550 2 8 1 4 69.76 1.01 1.3482 2 6 2 4 69.84 1.81 1.3468 5 7 0 2 71.07 1.72 1.3264 8 2 0 2 71.23 4.49 1.3238 6 0 2 4 71.56 8.32 1.3185 4 5 2 4 71.73 2.02 1.3158 6 1 2 4 71.86 1.30 1.3138 4 8 0 2 72.40 2.60 1.3053 3 8 1 4 72.44 1.78 1.3047 7 5 0 2 72.74 1.11 1.3001 7 4 1 4 72.79 3.79 1.2992 3 6 2 4 73.05 3.86 1.2953 2 9 0 2 73.55 1.56 1.2876 8 3 0 2 73.85 1.39 1.2832 8 0 1 4 74.34 1.27 1.2760 8 1 1 4 74.40 2.18 1.2751 1 1 3 4 74.40 5.92 1.2751 1 7 2 4 74.79 2.88 1.2694 6 6 1 4 75.27 3.77 1.2624 0 2 3 2 75.67 3.77 1.2568 6 3 2 4 75.97 5.87 1.2526 1 9 1 4 76.19 4.26 1.2496 2 1 3 4 76.58 2.10 1.2442 4 8 1 4 76.94 1.95 1.2392 5 5 2 4 76.97 4.59 1.2389 4 6 2 4 77.14 1.09 1.2365 7 5 1 4 77.82 1.62 1.2274 7 6 0 2 78.23 1.75 1.2219 8 3 1 4 78.29 1.71 1.2211 1 3 3 4 78.65 4.16 1.2165 3 0 3 4 79.06 5.01 1.2112 6 4 2 4 79.46 1.66 1.2061 7 1 2 4 79.72 1.91 1.2028 9 1 0 2 79.92 1.01 1.2003 0 10 0 1 80.05 2.47 1.1987 2 3 3 4 80.15 2.06 1.1975 4 9 0 2 81.07 1.19 1.1862 0 4 3 2 81.07 1.04 1.1862 0 8 2 2 81.60 2.58 1.1799 8 4 1 4 81.85 1.21 1.1768 5 8 1 4 82.43 6.23 1.1701 7 6 1 4 83.21 3.51 1.1611 4 1 3 4 83.39 1.91 1.1589 2 4 3 4 84.31 1.49 1.1487 9 1 1 4 84.50 1.69 1.1465 0 10 1 2 85.08 1.87 1.1402 1 10 1 4 85.88 1.37 1.1317 8 5 1 4 85.93 1.78 1.1311 1 5 3 4 86.28 4.47 1.1274 3 4 3 4 86.28 1.32 1.1274 3 8 2 4 86.61 2.07 1.1240 7 4 2 4 87.00 2.25 1.1199 4 3 3 4 87.66 1.72 1.1132 2 5 3 4 88.10 1.80 1.1088 9 3 1 4 88.21 1.01 1.1077 6 8 1 4 88.40 1.65 1.1058 5 7 2 4 88.60 1.01 1.1039 7 7 1 4 89.18 1.29 1.0981 4 10 0 2 89.57 1.70 1.0944 8 2 2 4 89.69 2.08 1.0932 3 10 1 4 89.91 1.78 1.0911 5 9 1 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.