Berthierite Periotto B, Balic-Zunic T, Nestola F The Canadian Mineralogist 50 (2012) 201-218 The role of the Sb3+ lone-electron pairs and Fe2+ coordination in the high-pressure behavior of berthierite Note: P = 1.41 GPa Locality: hydro-thermal vein-type deposit of Herja in the Baia Mare metallogenic area, Romania _database_code_amcsd 0019206 CELL PARAMETERS: 11.2796 13.9181 3.7359 90.000 90.000 90.000 SPACE GROUP: Pnam X-RAY WAVELENGTH: 1.541838 Cell Volume: 586.501 Density (g/cm3): 4.842 MAX. ABS. INTENSITY / VOLUME**2: 27.75142461 RIR: 1.866 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 12.72 33.84 6.9591 0 2 0 2 14.96 2.20 5.9226 1 2 0 4 15.71 3.30 5.6398 2 0 0 2 16.96 7.76 5.2270 2 1 0 4 20.70 32.45 4.2906 1 3 0 4 24.52 94.90 3.6298 3 1 0 4 24.85 58.85 3.5829 2 3 0 4 25.60 24.48 3.4795 0 4 0 2 25.93 28.42 3.4366 1 1 1 8 26.81 39.81 3.3249 1 4 0 4 26.95 1.03 3.3079 3 2 0 4 28.24 100.00 3.1598 1 2 1 8 29.39 35.75 3.0394 2 1 1 8 30.18 50.41 2.9613 2 4 0 4 30.61 10.29 2.9210 3 3 0 4 31.47 82.66 2.8428 2 2 1 8 34.45 93.18 2.6033 3 1 1 8 34.69 91.01 2.5859 2 3 1 8 35.14 3.00 2.5538 3 4 0 4 35.98 30.77 2.4961 2 5 0 4 36.17 23.75 2.4837 1 4 1 8 36.27 11.59 2.4766 3 2 1 8 37.32 1.86 2.4097 4 3 0 4 38.80 4.08 2.3207 2 4 1 8 38.82 4.80 2.3197 0 6 0 2 39.15 4.20 2.3011 3 3 1 8 39.67 4.40 2.2721 1 6 0 4 40.06 6.65 2.2507 4 0 1 4 40.31 13.86 2.2372 3 5 0 4 40.41 2.25 2.2321 0 5 1 4 40.51 1.74 2.2269 5 1 0 4 40.60 23.62 2.2218 4 1 1 8 41.23 21.73 2.1897 1 5 1 8 42.11 28.74 2.1460 5 2 0 4 42.12 6.32 2.1453 2 6 0 4 42.20 17.74 2.1415 4 2 1 8 42.90 1.09 2.1083 3 4 1 8 43.61 3.02 2.0755 2 5 1 8 44.67 3.73 2.0288 5 3 0 4 44.75 33.97 2.0250 4 3 1 8 45.80 13.54 1.9810 4 5 0 4 45.97 12.00 1.9742 3 6 0 4 46.37 4.52 1.9581 1 7 0 4 46.80 2.95 1.9413 1 6 1 8 47.36 5.81 1.9194 3 5 1 8 48.07 27.09 1.8929 5 4 0 4 48.15 3.73 1.8898 4 4 1 8 48.42 2.60 1.8799 6 0 0 2 48.55 4.03 1.8752 2 7 0 4 48.75 44.79 1.8679 0 0 2 2 48.95 8.01 1.8608 5 2 1 8 48.96 14.55 1.8604 2 6 1 8 50.59 1.94 1.8041 0 2 2 4 51.24 22.48 1.7829 5 3 1 8 52.03 1.17 1.7577 3 7 0 4 52.11 31.16 1.7552 0 7 1 4 52.19 1.15 1.7526 5 5 0 4 52.27 2.88 1.7502 4 5 1 8 52.42 16.66 1.7455 3 6 1 8 52.78 22.88 1.7343 1 7 1 8 53.50 4.03 1.7127 1 3 2 8 54.33 5.88 1.6885 5 4 1 8 54.65 16.16 1.6793 6 0 1 4 54.77 4.37 1.6759 2 7 1 8 55.26 1.59 1.6625 2 8 0 4 55.31 17.41 1.6609 3 1 2 8 55.48 11.34 1.6564 2 3 2 8 55.86 4.74 1.6458 0 4 2 4 56.51 8.25 1.6285 1 4 2 8 57.01 2.05 1.6153 4 6 1 8 57.58 6.11 1.6007 7 1 0 4 58.14 2.67 1.5867 5 5 1 8 58.41 11.79 1.5799 2 4 2 8 58.45 4.82 1.5790 6 3 1 8 58.45 2.03 1.5789 3 8 0 4 58.67 2.36 1.5737 3 3 2 8 58.82 10.11 1.5698 7 2 0 4 59.15 2.01 1.5619 1 8 1 8 59.32 1.02 1.5579 6 5 0 4 60.42 7.37 1.5321 1 9 0 4 61.00 6.02 1.5189 2 8 1 8 61.29 6.38 1.5124 6 4 1 8 62.06 10.01 1.4956 2 5 2 8 62.75 8.21 1.4806 4 8 0 4 63.20 3.99 1.4713 7 1 1 8 63.72 1.07 1.4605 6 6 0 4 64.00 2.00 1.4549 0 6 2 4 64.37 3.88 1.4473 7 2 1 8 64.59 1.76 1.4429 1 6 2 8 65.05 5.70 1.4339 3 5 2 8 65.23 2.00 1.4302 3 9 0 4 66.34 12.49 1.4090 5 2 2 8 66.35 2.51 1.4088 2 6 2 8 66.67 1.71 1.4028 8 1 0 4 67.63 4.43 1.3853 5 7 1 8 67.82 1.73 1.3819 8 2 0 4 67.85 1.87 1.3813 1 10 0 4 68.05 3.51 1.3777 5 8 0 4 68.25 1.58 1.3742 5 3 2 8 68.72 3.54 1.3660 6 7 0 4 68.97 4.48 1.3616 7 4 1 8 69.05 4.41 1.3603 6 6 1 8 69.12 6.35 1.3591 4 5 2 8 69.25 5.78 1.3568 3 6 2 8 69.55 2.29 1.3516 1 7 2 8 69.57 2.44 1.3513 2 10 0 4 69.70 4.30 1.3490 8 3 0 4 70.88 13.96 1.3296 5 4 2 8 71.15 1.33 1.3251 6 0 2 4 71.26 1.30 1.3234 7 6 0 4 71.26 1.99 1.3234 2 7 2 8 72.32 5.78 1.3065 7 5 1 8 72.40 1.41 1.3053 3 10 0 4 74.37 2.09 1.2755 5 9 0 4 74.43 1.82 1.2746 4 9 1 8 74.83 2.52 1.2688 8 3 1 8 76.02 1.17 1.2519 7 7 0 4 76.30 1.92 1.2481 4 10 0 4 76.34 1.57 1.2474 7 6 1 8 77.41 1.05 1.2329 1 1 3 8 77.46 6.68 1.2322 3 10 1 8 78.48 3.89 1.2187 1 2 3 8 78.73 4.21 1.2155 7 1 2 8 79.05 1.38 1.2114 2 1 3 8 79.38 5.10 1.2071 5 9 1 8 79.48 1.36 1.2059 3 8 2 8 79.80 6.81 1.2018 7 2 2 8 80.07 6.81 1.1984 0 11 1 4 80.12 3.72 1.1979 2 2 3 8 80.59 3.15 1.1921 8 5 1 8 81.20 5.23 1.1846 1 9 2 8 81.26 6.69 1.1839 9 1 1 8 81.27 1.43 1.1838 4 10 1 8 81.76 5.15 1.1779 3 1 3 8 81.90 5.15 1.1763 2 3 3 8 82.32 1.36 1.1713 9 2 1 8 82.76 1.61 1.1662 1 4 3 8 83.27 6.36 1.1603 4 8 2 8 84.93 1.95 1.1418 3 11 1 8 85.51 1.63 1.1356 3 9 2 8 85.53 1.92 1.1354 4 1 3 8 85.94 1.78 1.1310 1 5 3 8 86.58 1.06 1.1243 10 1 0 4 86.59 1.55 1.1242 4 2 3 8 86.83 1.44 1.1217 8 1 2 8 87.64 1.49 1.1134 10 2 0 4 87.89 1.50 1.1109 8 2 2 8 87.91 1.74 1.1106 1 10 2 8 88.10 3.00 1.1087 5 8 2 8 88.35 3.53 1.1063 4 3 3 8 88.72 1.73 1.1026 9 6 0 4 88.72 3.03 1.1026 6 7 2 8 89.07 2.35 1.0992 8 7 1 8 89.52 2.15 1.0948 2 10 2 8 89.64 3.87 1.0936 8 3 2 8 89.73 4.41 1.0928 9 5 1 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.