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 = 7.832 GPa _database_code_amcsd 0008831 CELL PARAMETERS: 10.5080 3.7409 10.5790 90.000 90.000 90.000 SPACE GROUP: Pnma X-RAY WAVELENGTH: 1.541838 Cell Volume: 415.854 Density (g/cm3): 5.425 MAX. ABS. INTENSITY / VOLUME**2: 43.77806171 RIR: 2.627 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 11.87 1.88 7.4553 1 0 1 4 16.76 7.10 5.2895 0 0 2 2 16.87 19.63 5.2540 2 0 0 2 18.78 7.77 4.7247 1 0 2 4 18.86 23.51 4.7056 2 0 1 4 23.87 42.23 3.7276 2 0 2 4 25.25 23.78 3.5269 0 1 1 4 26.66 29.14 3.3436 1 1 1 8 26.66 60.68 3.3431 1 0 3 4 26.81 71.24 3.3251 3 0 1 4 29.31 22.90 3.0474 2 1 0 4 30.48 100.00 2.9329 1 1 2 8 30.53 24.93 2.9283 2 1 1 8 30.53 14.54 2.9280 2 0 3 4 30.61 15.50 2.9204 3 0 2 4 33.95 76.32 2.6405 2 1 2 8 34.13 1.72 2.6270 4 0 0 2 34.97 47.55 2.5660 0 1 3 4 34.99 2.32 2.5648 1 0 4 4 35.20 2.37 2.5496 4 0 1 4 36.03 27.89 2.4928 1 1 3 8 36.14 2.10 2.4851 3 0 3 4 38.09 16.41 2.3623 2 0 4 4 38.25 39.54 2.3528 4 0 2 4 39.07 1.16 2.3057 2 1 3 8 39.13 19.47 2.3020 3 1 2 8 42.03 20.84 2.1499 4 1 0 4 42.75 12.26 2.1153 1 1 4 8 42.85 1.40 2.1107 3 0 4 4 42.93 39.84 2.1068 4 1 1 8 42.93 5.53 2.1067 4 0 3 4 43.64 3.47 2.0742 1 0 5 4 43.73 1.57 2.0700 3 1 3 8 45.41 12.15 1.9974 2 1 4 8 45.55 11.46 1.9916 4 1 2 8 46.26 12.46 1.9626 2 0 5 4 46.50 6.00 1.9531 5 0 2 4 48.68 35.15 1.8705 0 2 0 2 48.87 4.45 1.8638 4 0 4 4 49.49 24.68 1.8416 0 1 5 4 49.59 46.71 1.8383 3 1 4 8 49.67 1.92 1.8356 4 1 3 8 50.30 1.01 1.8140 1 1 5 8 50.39 14.80 1.8110 3 0 5 4 50.56 9.29 1.8054 5 1 1 8 50.56 10.03 1.8053 5 0 3 4 51.86 4.21 1.7632 0 0 6 2 51.89 1.79 1.7621 2 2 0 4 52.23 10.49 1.7513 6 0 0 2 52.64 6.97 1.7389 1 0 6 4 52.66 2.37 1.7382 2 2 1 8 52.88 11.03 1.7313 5 1 2 8 54.92 7.41 1.6718 2 2 2 8 54.93 4.16 1.6716 2 0 6 4 55.25 1.30 1.6626 6 0 2 4 55.79 3.55 1.6478 4 0 5 4 56.36 12.96 1.6323 1 2 3 8 56.44 15.08 1.6302 3 2 1 8 56.45 3.89 1.6301 3 1 5 8 56.61 4.95 1.6259 5 1 3 8 58.16 8.81 1.5861 6 1 0 4 58.54 1.01 1.5768 1 1 6 8 58.56 3.62 1.5763 2 2 3 8 58.61 3.58 1.5751 3 2 2 8 58.87 2.75 1.5686 6 1 1 8 58.88 2.31 1.5685 6 0 3 4 63.43 5.87 1.4664 2 2 4 8 63.54 14.24 1.4642 4 2 2 8 63.55 3.90 1.4640 4 0 6 4 64.12 6.00 1.4524 2 0 7 4 64.16 2.35 1.4515 3 1 6 8 64.41 2.82 1.4465 6 1 3 8 66.89 2.41 1.3987 4 2 3 8 67.42 1.57 1.3891 1 2 5 8 67.85 5.49 1.3812 7 1 1 8 67.86 7.26 1.3812 7 0 3 4 69.41 6.03 1.3540 2 2 5 8 69.42 10.49 1.3539 2 1 7 8 69.60 2.95 1.3509 5 2 2 8 69.81 3.46 1.3472 7 1 2 8 71.32 1.82 1.3224 0 0 8 2 71.45 2.34 1.3203 4 2 4 8 72.39 3.72 1.3055 7 0 4 4 72.67 8.17 1.3011 3 2 5 8 72.81 5.53 1.2990 5 2 3 8 73.86 2.40 1.2830 0 2 6 4 74.17 6.02 1.2784 6 2 0 4 74.51 4.08 1.2735 1 2 6 8 74.72 1.17 1.2705 5 1 6 8 74.81 11.32 1.2691 6 1 5 8 76.42 2.59 1.2464 2 2 6 8 76.70 1.79 1.2425 6 0 6 4 77.02 5.09 1.2381 1 1 8 8 77.14 2.21 1.2364 4 2 5 8 77.15 11.57 1.2364 4 1 7 8 77.43 1.99 1.2326 7 1 4 8 77.56 2.69 1.2309 8 1 1 8 77.63 1.01 1.2299 1 3 1 8 79.42 3.20 1.2066 8 1 2 8 79.49 4.34 1.2057 1 3 2 8 79.52 1.15 1.2054 2 3 1 8 79.80 1.67 1.2019 6 2 3 8 81.37 4.08 1.1826 2 3 2 8 81.95 2.72 1.1756 0 3 3 4 82.58 1.70 1.1683 1 3 3 8 82.59 1.54 1.1682 1 0 9 4 82.99 1.70 1.1636 7 1 5 8 83.26 3.37 1.1605 9 0 1 4 83.93 3.05 1.1529 4 2 6 8 84.45 4.74 1.1472 2 2 7 8 84.48 1.48 1.1468 3 3 2 8 84.83 1.06 1.1430 7 0 6 4 86.37 1.81 1.1265 4 3 0 4 86.78 2.44 1.1222 8 1 4 8 86.85 1.13 1.1214 1 3 4 8 86.86 3.33 1.1214 0 1 9 4 86.98 3.65 1.1202 4 3 1 8 87.07 1.82 1.1192 5 0 8 4 87.55 1.86 1.1144 3 0 9 4 87.87 6.26 1.1111 7 2 3 8 88.71 1.27 1.1028 2 3 4 8 88.81 1.19 1.1018 4 3 2 8 89.70 2.90 1.0931 7 1 6 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.