Stibnite Lundegaard L F, Miletich R, Balic-Zunic T, Makovicky E Physics and Chemistry of Minerals 30 (2003) 463-468 Equation of state and crystal structure of Sb2S3 between 0 and 10 GPa Sample: Romania, P = 1.591 GPa _database_code_amcsd 0008827 CELL PARAMETERS: 11.0440 3.8124 11.0430 90.000 90.000 90.000 SPACE GROUP: Pnma X-RAY WAVELENGTH: 1.541838 Cell Volume: 464.956 Density (g/cm3): 4.852 MAX. ABS. INTENSITY / VOLUME**2: 51.71187492 RIR: 3.470 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 11.33 4.70 7.8089 1 0 1 4 16.05 22.02 5.5220 2 0 0 2 16.05 6.11 5.5215 0 0 2 2 17.96 34.35 4.9389 2 0 1 4 17.96 3.50 4.9387 1 0 2 4 22.78 23.81 3.9045 2 0 2 4 24.70 16.99 3.6037 0 1 1 4 25.51 51.91 3.4924 3 0 1 4 25.51 48.09 3.4921 1 0 3 4 26.01 21.21 3.4259 1 1 1 8 28.45 11.88 3.1373 2 1 0 4 29.16 16.94 3.0630 3 0 2 4 29.16 11.28 3.0629 2 0 3 4 29.60 15.22 3.0179 2 1 1 8 29.60 71.69 3.0178 1 1 2 8 32.83 70.59 2.7277 2 1 2 8 33.46 2.19 2.6783 1 0 4 4 33.85 34.75 2.6481 0 1 3 4 34.46 1.18 2.6030 3 0 3 4 34.84 17.24 2.5751 1 1 3 8 36.38 32.97 2.4695 4 0 2 4 36.38 9.32 2.4693 2 0 4 4 37.67 13.36 2.3878 3 1 2 8 40.33 17.43 2.2362 4 1 0 4 40.86 3.36 2.2087 4 0 3 4 40.86 4.02 2.2087 3 0 4 4 41.19 24.93 2.1917 4 1 1 8 41.19 7.57 2.1916 1 1 4 8 41.71 2.45 2.1657 1 0 5 4 42.03 2.28 2.1497 3 1 3 8 43.67 2.94 2.0726 4 1 2 8 43.67 11.82 2.0726 2 1 4 8 44.16 9.83 2.0508 5 0 2 4 44.16 7.99 2.0507 2 0 5 4 46.52 4.44 1.9522 4 0 4 4 47.58 3.05 1.9112 4 1 3 8 47.58 33.80 1.9111 3 1 4 8 47.58 20.14 1.9111 0 1 5 4 47.71 25.30 1.9062 0 2 0 2 48.04 2.86 1.8940 5 0 3 4 48.04 11.61 1.8939 3 0 5 4 48.33 6.53 1.8832 5 1 1 8 48.33 1.27 1.8831 1 1 5 8 49.52 5.07 1.8407 6 0 0 2 49.53 3.55 1.8405 0 0 6 2 50.25 1.70 1.8156 6 0 1 4 50.26 4.74 1.8155 1 0 6 4 50.54 3.87 1.8061 5 1 2 8 50.66 1.82 1.8019 2 2 0 4 51.38 3.34 1.7783 2 2 1 8 52.40 2.38 1.7461 2 0 6 4 53.10 2.71 1.7247 4 0 5 4 53.49 4.09 1.7130 2 2 2 8 54.07 10.52 1.6962 5 1 3 8 54.07 5.70 1.6961 3 1 5 8 54.87 10.67 1.6732 3 2 1 8 54.87 9.97 1.6732 1 2 3 8 55.43 16.08 1.6576 6 1 0 4 55.84 3.45 1.6463 6 0 3 4 56.11 1.08 1.6392 6 1 1 8 56.11 1.16 1.6391 1 1 6 8 56.89 3.74 1.6184 3 2 2 8 56.90 2.76 1.6184 2 2 3 8 60.45 2.24 1.5314 4 0 6 4 61.09 6.69 1.5169 2 0 7 4 61.34 1.55 1.5114 6 1 3 8 61.34 1.88 1.5113 3 1 6 8 61.45 11.45 1.5089 4 2 2 8 61.45 3.22 1.5089 2 2 4 8 64.23 4.87 1.4501 7 0 3 4 64.47 3.42 1.4453 7 1 1 8 64.58 1.43 1.4431 4 2 3 8 64.58 1.68 1.4431 3 2 4 8 65.20 1.05 1.4309 1 2 5 8 65.71 1.37 1.4211 4 1 6 8 66.08 2.68 1.4140 6 0 5 4 66.08 1.01 1.4140 5 0 6 4 66.31 1.87 1.4095 7 1 2 8 66.32 6.34 1.4094 2 1 7 8 67.03 4.64 1.3962 5 2 2 8 67.03 3.78 1.3962 2 2 5 8 67.90 1.53 1.3804 0 0 8 2 68.50 3.33 1.3698 7 0 4 4 68.84 2.26 1.3639 4 2 4 8 70.03 1.51 1.3435 5 2 3 8 70.03 6.15 1.3435 3 2 5 8 71.11 5.25 1.3257 6 1 5 8 71.21 2.80 1.3241 6 2 0 4 71.22 1.95 1.3240 0 2 6 4 71.81 2.71 1.3146 1 2 6 8 73.46 9.73 1.2891 4 1 7 8 73.46 3.88 1.2890 1 1 8 8 73.56 1.40 1.2876 2 2 6 8 74.14 1.63 1.2789 4 2 5 8 75.19 3.90 1.2636 8 1 2 8 76.45 2.31 1.2460 6 2 3 8 77.50 1.53 1.2317 6 1 6 8 77.57 3.05 1.2307 1 3 2 8 78.41 1.42 1.2196 9 0 1 4 78.42 1.10 1.2195 1 0 9 4 78.64 1.57 1.2167 7 1 5 8 79.28 3.73 1.2084 2 3 2 8 79.85 1.94 1.2012 0 3 3 4 80.42 1.05 1.1942 1 3 3 8 80.44 1.64 1.1939 4 2 6 8 81.01 5.04 1.1869 2 2 7 8 82.04 2.37 1.1747 8 1 4 8 82.38 1.93 1.1706 5 0 8 4 82.61 2.68 1.1680 0 1 9 4 82.95 1.41 1.1640 3 0 9 4 83.16 1.79 1.1616 9 1 1 8 83.80 1.45 1.1544 4 3 0 4 83.82 3.94 1.1541 7 2 3 8 84.36 2.12 1.1481 4 3 1 8 84.85 3.00 1.1428 7 1 6 8 85.51 2.23 1.1357 6 2 5 8 86.04 1.19 1.1299 2 3 4 8 86.87 1.71 1.1213 9 0 4 4 87.09 1.01 1.1191 8 1 5 8 87.19 1.32 1.1180 0 2 8 4 87.74 2.94 1.1124 7 2 4 8 88.84 3.98 1.1015 3 3 4 8 88.84 2.37 1.1015 0 3 5 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.