Vesuvianite Galuskin E V, Galuskina I O, Stadnicka K, Armbruster T, Kozanecki M The Canadian Mineralogist 45 (2007) 239-248 The crystal structure of Si-deficient, OH-substituted, boron-bearing vesuvianite from the Wiluy River, Sakha-Yakutia, Russia Locality: Wiluy River, Sakha-Yakutia, Russia _database_code_amcsd 0006135 CELL PARAMETERS: 15.6780 15.6780 11.8280 90.000 90.000 90.000 SPACE GROUP: P4/nnc X-RAY WAVELENGTH: 1.541838 Cell Volume: 2907.319 Density (g/cm3): 3.108 MAX. ABS. INTENSITY / VOLUME**2: 7.028407822 RIR: 0.736 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.37 11.78 9.4423 1 0 1 8 14.98 8.14 5.9140 0 0 2 2 15.99 1.54 5.5430 2 2 0 4 16.99 5.56 5.2180 1 1 2 8 18.80 8.69 4.7211 2 0 2 8 19.41 1.40 4.5724 3 1 1 16 19.64 1.73 4.5206 2 1 2 16 21.78 1.59 4.0812 3 2 1 16 21.98 6.70 4.0443 2 2 2 8 22.69 3.43 3.9195 4 0 0 4 23.41 1.12 3.7994 3 1 2 16 25.41 10.07 3.5057 4 2 0 8 25.42 5.06 3.5033 3 2 2 16 27.30 4.56 3.2671 4 0 2 8 27.89 1.96 3.1984 4 1 2 16 28.93 4.04 3.0859 3 1 3 16 29.04 11.22 3.0747 5 1 0 8 29.47 1.28 3.0309 5 0 1 8 29.47 9.84 3.0309 4 3 1 16 29.62 10.04 3.0157 4 2 2 16 30.03 1.01 2.9758 5 1 1 16 30.22 53.04 2.9570 0 0 4 2 30.61 7.47 2.9208 3 2 3 16 31.31 3.61 2.8571 1 1 4 8 32.30 28.93 2.7715 4 4 0 4 32.32 100.00 2.7703 4 3 2 16 32.36 1.29 2.7667 2 0 4 8 33.32 3.59 2.6888 5 3 0 8 34.23 3.43 2.6198 4 2 3 16 34.33 68.71 2.6120 5 2 2 16 34.37 34.11 2.6090 2 2 4 8 35.34 5.07 2.5396 3 1 4 16 35.65 1.53 2.5183 6 1 1 16 36.24 47.67 2.4789 6 2 0 8 36.62 7.49 2.4541 5 0 3 8 36.76 1.46 2.4452 3 2 4 16 37.51 2.16 2.3977 5 4 1 16 37.63 4.56 2.3901 6 0 2 8 38.09 3.17 2.3628 6 1 2 16 38.12 9.19 2.3606 4 0 4 8 38.44 2.04 2.3420 5 2 3 16 38.49 1.22 2.3391 1 0 5 8 38.57 6.71 2.3343 4 1 4 16 39.01 5.72 2.3088 3 3 4 8 39.30 4.09 2.2928 6 3 1 16 39.88 1.05 2.2603 4 2 4 16 40.23 3.77 2.2415 2 1 5 16 40.61 2.95 2.2214 5 3 3 16 40.69 7.58 2.2172 7 1 0 8 41.01 3.32 2.2006 7 0 1 8 41.43 4.98 2.1792 7 1 1 16 41.87 2.27 2.1574 6 1 3 16 41.92 1.99 2.1551 3 0 5 8 42.00 2.26 2.1513 4 3 4 16 42.26 9.20 2.1383 6 4 1 16 42.33 13.90 2.1350 3 1 5 16 42.68 1.19 2.1187 7 2 1 16 43.10 6.53 2.0986 6 2 3 16 43.51 3.58 2.0800 5 4 3 16 43.60 3.34 2.0761 7 1 2 16 43.63 3.16 2.0746 5 2 4 16 43.98 7.72 2.0586 7 3 0 8 44.39 5.50 2.0406 6 4 2 16 44.68 5.85 2.0281 7 3 1 16 45.10 10.04 2.0105 6 3 3 16 45.85 5.95 1.9791 6 5 1 16 46.72 2.50 1.9442 7 3 2 16 46.75 1.95 1.9430 6 1 4 16 47.02 5.16 1.9326 7 1 3 16 47.38 1.93 1.9189 7 4 1 16 47.56 3.97 1.9118 2 0 6 8 47.84 5.69 1.9012 8 2 0 8 47.88 2.71 1.8997 6 2 4 16 47.94 1.26 1.8978 2 1 6 16 48.19 2.56 1.8885 5 0 5 8 48.19 2.49 1.8885 4 3 5 16 48.56 3.10 1.8749 5 1 5 16 49.78 2.05 1.8318 3 1 6 16 50.42 1.80 1.8100 8 2 2 16 51.52 1.14 1.7739 5 5 4 8 51.52 11.68 1.7739 7 1 4 16 51.92 1.41 1.7611 4 0 6 8 52.22 1.09 1.7516 6 4 4 16 52.88 3.38 1.7313 9 1 0 8 53.55 1.34 1.7114 6 2 5 16 54.30 9.30 1.6895 7 3 4 16 54.61 3.06 1.6806 8 4 2 16 55.02 21.28 1.6689 4 3 6 16 55.36 1.01 1.6595 5 1 6 16 56.29 27.96 1.6343 9 2 2 16 56.32 8.53 1.6336 8 0 4 8 56.37 17.59 1.6323 5 2 6 16 58.01 1.21 1.5898 5 3 6 16 58.26 7.28 1.5837 7 7 0 4 58.66 1.02 1.5737 6 0 6 8 58.94 9.04 1.5669 6 6 4 8 58.99 8.49 1.5658 6 1 6 16 59.59 2.84 1.5515 7 5 4 16 59.80 1.80 1.5466 10 1 1 16 59.95 1.41 1.5429 6 2 6 16 60.19 5.33 1.5374 10 2 0 8 60.83 3.50 1.5228 9 5 0 8 60.86 1.16 1.5221 4 2 7 16 61.16 1.13 1.5155 10 0 2 8 61.47 2.34 1.5084 10 1 2 16 61.50 6.57 1.5078 8 4 4 16 61.54 2.49 1.5069 6 3 6 16 62.13 1.10 1.4941 9 1 4 16 62.33 1.00 1.4897 10 3 1 16 62.86 4.16 1.4785 0 0 8 2 63.06 1.35 1.4741 7 6 4 16 63.73 1.23 1.4604 6 4 6 16 65.13 1.18 1.4323 10 2 3 16 67.04 7.96 1.3961 7 7 4 8 67.60 1.87 1.3858 8 8 0 4 67.64 1.26 1.3852 8 6 4 16 67.85 1.30 1.3814 8 7 3 16 68.20 2.72 1.3751 11 3 0 8 68.81 1.41 1.3645 11 2 2 16 69.42 9.54 1.3538 9 5 4 16 70.01 1.33 1.3439 7 1 7 16 70.70 2.10 1.3325 5 1 8 16 72.33 6.28 1.3064 11 4 2 16 72.45 4.15 1.3045 4 4 8 8 73.55 6.30 1.2876 9 2 6 16 74.09 2.35 1.2796 11 1 4 16 74.64 1.75 1.2715 12 1 2 16 74.76 4.55 1.2698 6 2 8 16 77.42 2.15 1.2327 12 4 1 16 78.99 1.23 1.2121 4 3 9 16 79.45 1.37 1.2063 10 5 5 16 84.53 1.27 1.1462 10 1 7 16 87.59 1.72 1.1139 13 1 4 16 87.59 1.68 1.1139 11 7 4 16 88.19 3.45 1.1079 11 4 6 16 88.31 3.27 1.1067 4 3 10 16 88.80 1.21 1.1019 9 3 8 16 89.42 2.14 1.0958 5 2 10 16 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.