Metatorbernite Calos N J, Kennard C H L Zeitschrift fur Kristallographie 211 (1996) 701-702 Crystal structure of copper bis(uranyl phosphate) octahydrate (metatobernite), Cu(UO2PO4)2*8(H2O) Locality: Sonora, Mexico _database_code_amcsd 0011066 CELL PARAMETERS: 6.9500 6.9500 8.6380 90.000 90.000 90.000 SPACE GROUP: P4/nmm X-RAY WAVELENGTH: 1.541838 Cell Volume: 417.237 Density (g/cm3): 3.800 MAX. ABS. INTENSITY / VOLUME**2: 80.77585164 RIR: 6.921 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.24 100.00 8.6380 0 0 1 2 16.37 44.02 5.4149 1 0 1 8 18.05 53.61 4.9144 1 1 0 4 20.56 6.71 4.3190 0 0 2 2 20.80 17.61 4.2715 1 1 1 8 24.26 92.68 3.6684 1 0 2 8 25.64 67.69 3.4750 2 0 0 4 27.67 38.43 3.2239 2 0 1 8 30.57 18.51 2.9246 2 1 1 16 33.09 4.65 2.7075 2 0 2 8 33.69 13.34 2.6601 1 0 3 8 35.59 22.01 2.5228 2 1 2 16 36.16 2.94 2.4843 1 1 3 8 36.57 11.31 2.4572 2 2 0 4 38.07 14.05 2.3634 2 2 1 8 40.31 7.29 2.2376 3 0 1 8 41.07 25.15 2.1978 3 1 0 8 41.83 7.68 2.1595 0 0 4 2 42.32 1.37 2.1357 2 2 2 8 42.44 11.04 2.1299 3 1 1 16 42.81 11.77 2.1123 2 1 3 16 43.90 5.04 2.0622 1 0 4 8 44.37 26.42 2.0415 3 0 2 8 45.90 11.70 1.9770 1 1 4 8 48.38 7.28 1.8813 3 2 1 16 49.71 8.84 1.8342 2 0 4 8 50.57 6.72 1.8050 3 0 3 8 51.53 3.48 1.7735 2 1 4 16 51.95 16.44 1.7602 3 2 2 16 52.37 3.00 1.7470 3 1 3 16 52.68 9.21 1.7375 4 0 0 4 53.01 1.78 1.7276 0 0 5 2 53.82 4.42 1.7034 4 0 1 8 55.55 2.38 1.6544 4 1 1 16 56.15 6.36 1.6381 3 3 0 4 56.46 5.68 1.6298 1 1 5 8 56.75 2.62 1.6221 2 2 4 8 57.24 3.19 1.6094 3 3 1 8 57.54 7.42 1.6018 3 2 3 16 58.42 2.55 1.5796 3 0 4 8 58.81 8.65 1.5703 4 1 2 16 59.48 7.36 1.5541 4 2 0 8 59.78 3.96 1.5470 2 0 5 8 60.06 14.90 1.5404 3 1 4 16 60.53 5.22 1.5295 4 2 1 16 64.01 2.97 1.4547 4 1 3 16 64.84 2.41 1.4380 3 2 4 16 66.12 2.29 1.4133 2 2 5 8 66.30 2.90 1.4097 1 0 6 8 67.83 2.04 1.3816 1 1 6 8 68.35 1.05 1.3723 5 0 1 8 68.35 1.94 1.3723 4 3 1 16 68.89 2.65 1.3630 5 1 0 8 69.17 7.78 1.3582 3 1 5 16 69.43 3.24 1.3537 4 0 4 8 69.86 1.68 1.3463 5 1 1 16 70.85 1.20 1.3300 2 0 6 8 70.93 1.48 1.3288 4 1 4 16 71.27 3.11 1.3232 5 0 2 8 71.27 6.87 1.3232 4 3 2 16 72.33 2.55 1.3063 2 1 6 16 72.41 5.02 1.3051 3 3 4 8 74.31 1.34 1.2764 5 2 1 16 75.35 3.00 1.2614 4 2 4 16 76.03 2.72 1.2518 4 3 3 16 76.03 1.44 1.2518 5 0 3 8 77.14 3.05 1.2366 5 2 2 16 77.73 1.75 1.2286 4 4 0 4 77.99 1.48 1.2251 4 0 5 8 78.17 2.18 1.2228 3 0 6 8 78.66 1.12 1.2164 4 4 1 8 78.77 1.39 1.2150 1 0 7 8 79.61 3.19 1.2043 3 1 6 16 80.60 2.33 1.1919 5 3 0 8 80.86 2.92 1.1887 3 3 5 8 81.52 1.52 1.1807 5 3 1 16 81.78 1.94 1.1777 5 2 3 16 82.54 1.18 1.1688 4 3 4 16 83.45 1.97 1.1583 6 0 0 4 83.71 2.02 1.1554 4 2 5 16 83.88 2.41 1.1535 3 2 6 16 83.96 3.59 1.1526 5 1 4 16 84.37 1.61 1.1481 6 0 1 8 84.47 1.92 1.1469 2 1 7 16 85.78 1.17 1.1327 6 1 1 16 88.52 3.18 1.1046 6 1 2 16 89.10 2.52 1.0989 6 2 0 8 89.53 1.72 1.0947 4 1 6 16 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.