Livingstonite Diffraction data computed using the structure from the paper listed below, along with the cell parameters refined from the powder pattern for R050427 Niizeki N, Buerger M J Zeitschrift fur Kristallographie 109 (1957) 129-157 The crystal structure of livingstonite, HgSb4S8 Locality: Guerrido, Mexico CELL PARAMETERS: 30.16905 3.998662 21.43591 90.00000 104.3260 90.00000 SPACE GROUP: A2/a X-RAY WAVELENGTH: 1.541838 2-THETA INTENSITY D-SPACING H K L 8.59 17.60 10.3847 0 0 2 12.18 2.17 7.3077 4 0 0 13.05 2.05 6.8235 -4 0 2 16.54 14.86 5.3823 4 0 2 17.15 40.39 5.1923 0 0 4 18.42 13.73 4.8351 -4 0 4 22.77 7.02 3.9158 -1 1 1 23.06 4.62 3.8678 1 1 1 23.24 1.40 3.8373 -2 1 1 23.41 25.63 3.8108 4 0 4 23.79 26.89 3.7494 -8 0 2 23.80 31.78 3.7484 2 1 1 24.42 11.12 3.6539 8 0 0 25.67 51.01 3.4791 -4 0 6 25.80 2.23 3.4616 0 0 6 25.76 4.06 3.4670 -2 1 3 26.18 1.07 3.4118 -8 0 4 27.25 29.26 3.2795 2 1 3 27.88 11.11 3.2072 8 0 2 28.02 1.38 3.1912 5 1 1 28.34 1.81 3.1554 -5 1 3 28.46 3.58 3.1423 3 1 3 28.58 4.28 3.1296 -6 1 1 29.81 100.00 3.0033 -6 1 3 29.94 44.86 2.9896 6 1 1 30.72 2.46 2.9162 -1 1 5 30.88 2.30 2.9013 -3 1 5 30.93 10.73 2.8960 -8 0 6 31.27 15.05 2.8660 4 0 6 31.51 4.54 2.8440 -7 1 3 31.68 4.28 2.8297 5 1 3 32.75 1.98 2.7386 2 1 5 33.35 5.15 2.6911 8 0 4 33.36 25.90 2.6902 -6 1 5 33.61 13.92 2.6706 6 1 3 34.60 1.53 2.5962 0 0 8 35.53 1.88 2.5303 -9 1 3 35.73 1.29 2.5168 7 1 3 35.77 5.29 2.5139 -12 0 2 36.72 7.15 2.4508 -12 0 4 36.95 2.54 2.4359 12 0 0 37.05 18.19 2.4296 -2 1 7 37.07 1.26 2.4286 -3 1 7 37.24 1.61 2.4176 -8 0 8 37.54 3.39 2.3991 -10 1 1 37.79 1.54 2.3837 -10 1 3 39.01 4.73 2.3120 6 1 5 39.33 15.88 2.2939 10 1 1 39.56 13.78 2.2808 2 1 7 39.66 19.11 2.2752 4 0 8 39.67 9.26 2.2745 -12 0 6 40.11 6.47 2.2509 12 0 2 40.12 1.59 2.2503 8 0 6 40.04 3.91 2.2543 -10 1 5 40.12 1.25 2.2501 -11 1 1 42.23 5.41 2.1420 -4 0 10 42.93 6.26 2.1087 10 1 3 43.62 5.84 2.0769 0 0 10 44.29 8.59 2.0470 -12 0 8 44.46 5.78 2.0399 -2 1 9 44.57 7.47 2.0348 -8 0 10 45.40 16.99 1.9993 0 2 0 45.58 1.11 1.9921 9 1 5 45.58 1.19 1.9918 -13 1 1 45.63 2.80 1.9901 6 1 7 45.52 4.58 1.9947 1 2 0 46.23 1.27 1.9656 1 1 9 46.28 1.80 1.9633 0 2 2 47.24 3.26 1.9257 2 1 9 47.77 1.64 1.9054 8 0 8 47.72 1.04 1.9074 3 2 2 48.03 22.17 1.8956 10 1 5 48.11 1.11 1.8929 -9 1 9 48.24 1.15 1.8880 -5 2 2 48.45 1.66 1.8805 -16 0 2 48.48 1.61 1.8793 4 0 10 48.45 11.46 1.8803 -14 1 1 48.85 2.98 1.8658 0 2 4 49.35 13.10 1.8480 -14 1 5 49.36 2.19 1.8476 -4 2 4 49.46 15.90 1.8443 -10 1 9 49.71 2.81 1.8354 5 2 2 49.96 1.67 1.8269 16 0 0 50.42 2.72 1.8113 -16 0 6 50.49 1.13 1.8088 14 1 1 50.47 1.85 1.8096 -7 2 2 50.93 4.94 1.7941 12 0 6 51.66 2.17 1.7705 4 2 4 51.86 2.58 1.7642 -8 2 2 51.90 1.72 1.7629 -7 2 4 52.19 2.44 1.7539 8 2 0 52.23 1.30 1.7524 -14 1 7 52.45 1.53 1.7455 7 2 2 52.59 14.51 1.7413 -2 1 11 52.57 2.68 1.7421 -3 2 6 52.60 1.76 1.7410 -1 2 6 52.65 2.64 1.7395 -8 0 12 52.73 2.54 1.7371 -6 1 11 52.85 1.06 1.7334 5 2 4 52.85 6.03 1.7335 -4 2 6 53.03 11.57 1.7278 16 0 2 53.16 2.00 1.7240 6 1 9 53.33 1.39 1.7190 -5 2 6 53.77 1.21 1.7059 -16 0 8 54.08 1.93 1.6967 8 2 2 54.32 1.92 1.6898 10 1 7 54.53 1.18 1.6838 -9 2 4 55.61 2.80 1.6537 2 1 11 55.91 2.27 1.6453 -8 2 6 56.12 1.06 1.6397 8 0 10 56.12 5.79 1.6398 4 2 6 56.54 2.98 1.6287 -14 1 9 57.45 1.28 1.6049 8 2 4 57.73 1.58 1.5976 11 2 0 58.00 1.74 1.5908 12 0 8 58.89 1.53 1.5690 1 2 8 59.71 3.26 1.5492 -12 2 4 60.71 1.01 1.5261 -18 1 1 60.65 1.41 1.5274 3 2 8 60.98 3.62 1.5199 -6 1 13 61.12 1.24 1.5168 -9 2 8 61.37 1.74 1.5113 -2 1 13 61.46 5.48 1.5093 6 1 11 61.38 1.33 1.5110 -8 0 14 61.54 6.84 1.5075 -20 0 4 61.80 4.92 1.5019 4 2 8 61.80 2.65 1.5017 -12 2 6 62.12 2.07 1.4948 12 2 2 62.15 1.41 1.4941 13 2 0 62.51 2.61 1.4864 -18 1 7 62.64 3.75 1.4835 0 0 14 63.67 1.03 1.4620 -13 2 6 63.69 1.27 1.4616 -4 2 10 64.02 1.31 1.4549 9 2 6 64.36 3.32 1.4480 -16 0 12 64.74 1.87 1.4404 0 2 10 65.12 3.87 1.4330 8 0 12 65.05 2.16 1.4343 -20 0 8 65.04 1.31 1.4345 -12 0 14 65.25 3.31 1.4303 -12 2 8 65.47 2.99 1.4261 -8 2 10 65.90 1.90 1.4178 -18 1 9 66.58 4.29 1.4049 18 1 3 67.83 1.33 1.3820 -15 2 6 68.54 1.22 1.3693 4 2 10 69.74 1.03 1.3487 16 2 0 70.54 2.13 1.3353 12 2 6 70.54 3.05 1.3353 -18 1 11 70.77 1.76 1.3315 -8 0 16 72.09 4.05 1.3103 14 1 9 71.97 1.03 1.3123 -8 2 12 72.29 4.69 1.3073 16 2 2 73.06 2.66 1.2953 -22 1 3 73.73 1.10 1.2851 -12 0 16 74.29 2.74 1.2768 -22 1 1 74.29 1.15 1.2769 2 1 15 74.14 1.54 1.2791 -6 3 3 75.04 1.27 1.2660 -7 3 3 75.13 1.21 1.2647 5 3 3 76.06 1.74 1.2515 -6 3 5 76.33 3.90 1.2477 -14 1 15 76.82 1.03 1.2409 20 0 6 77.24 1.03 1.2353 -22 1 9 78.54 1.10 1.2180 24 0 0 79.52 1.18 1.2055 -8 2 14 79.66 3.17 1.2037 -20 2 4 79.75 3.50 1.2026 -6 1 17 80.59 1.40 1.1921 22 1 3 80.65 1.37 1.1914 0 2 14 82.07 1.18 1.1743 10 3 3 82.20 1.42 1.1727 -16 2 12 82.89 1.99 1.1647 8 2 12 82.83 1.14 1.1654 -20 2 8 84.79 3.16 1.1434 2 1 17 88.15 1.01 1.1082 -8 2 16 88.47 1.52 1.1050 -26 -1 7 88.77 1.42 1.1020 10 1 15 89.12 1.03 1.0986 4 0 18 89.36 3.52 1.0963 14 1 13 89.23 1.47 1.0976 -2 3 11 89.23 1.47 1.0976 -2 3 11 XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.