Curite Li Y, Burns P C The Canadian Mineralogist 38 (2000) 727-735 Investigations of crystal-chemical variability in lead uranyl oxide hydrates. I. Curite Note: sample CMNMC 81092 Locality: Shinkolobwe, Democratic Republic of Congo _database_code_amcsd 0005662 CELL PARAMETERS: 12.5750 13.0130 8.3900 90.000 90.000 90.000 SPACE GROUP: Pnam X-RAY WAVELENGTH: 1.541838 Cell Volume: 1372.927 Density (g/cm3): 6.647 MAX. ABS. INTENSITY / VOLUME**2: 137.4768893 RIR: 6.735 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.78 4.69 9.0427 1 1 0 4 13.61 6.88 6.5065 0 2 0 2 14.09 100.00 6.2875 2 0 0 2 15.33 5.53 5.7788 1 2 0 4 15.65 4.07 5.6613 2 1 0 4 19.63 1.44 4.5214 2 2 0 4 21.18 1.76 4.1950 0 0 2 2 22.28 34.49 3.9898 3 1 0 4 22.34 3.01 3.9802 2 2 1 8 24.71 1.02 3.6031 3 1 1 8 24.94 27.32 3.5704 2 3 0 4 25.26 51.39 3.5257 0 2 2 4 25.27 5.69 3.5237 3 2 0 4 26.25 50.93 3.3948 1 2 2 8 26.44 40.17 3.3705 2 1 2 8 27.14 1.55 3.2853 2 3 1 8 28.34 50.87 3.1496 1 4 0 4 28.39 4.53 3.1437 4 0 0 2 29.04 54.70 3.0752 2 2 2 8 29.22 8.49 3.0558 4 1 0 4 29.64 2.44 3.0142 3 3 0 4 30.48 5.91 2.9324 1 3 2 8 30.93 7.42 2.8910 3 1 2 8 30.95 2.81 2.8894 2 4 0 4 31.54 1.30 2.8367 3 3 1 8 32.75 1.25 2.7342 0 1 3 4 33.20 14.87 2.6982 3 2 2 8 34.90 10.56 2.5708 0 4 2 4 34.91 8.70 2.5700 3 4 0 4 35.26 22.86 2.5455 4 3 0 4 35.65 1.10 2.5187 1 4 2 8 36.37 13.45 2.4700 4 1 2 8 36.38 7.79 2.4693 5 1 0 4 36.71 3.10 2.4479 3 3 2 8 38.36 1.86 2.3464 4 2 2 8 41.46 2.45 2.1781 1 5 2 8 41.50 1.19 2.1757 5 3 0 4 41.64 2.74 2.1688 0 6 0 2 42.29 1.47 2.1373 1 6 0 4 42.48 4.50 2.1280 5 1 2 8 43.13 18.91 2.0975 0 0 4 2 43.37 4.38 2.0863 2 5 2 8 44.17 5.26 2.0503 2 6 0 4 45.13 1.34 2.0090 6 1 1 8 45.59 8.62 1.9897 2 0 4 4 46.03 1.03 1.9716 1 2 4 8 46.42 14.64 1.9560 3 5 2 8 47.05 6.33 1.9314 5 3 2 8 47.76 15.38 1.9044 1 6 2 8 48.08 1.18 1.8923 3 4 3 8 48.22 13.37 1.8871 6 3 0 4 48.32 1.70 1.8837 1 5 3 8 49.07 6.24 1.8566 3 1 4 8 49.09 14.45 1.8557 6 1 2 8 49.48 3.08 1.8420 2 6 2 8 49.57 2.03 1.8390 1 7 0 4 50.45 11.87 1.8088 4 5 2 8 50.46 7.44 1.8085 2 3 4 8 50.65 1.14 1.8024 3 2 4 8 50.67 2.03 1.8016 6 2 2 8 51.34 2.82 1.7796 7 1 0 4 52.26 4.63 1.7505 3 6 2 8 52.41 15.94 1.7458 1 4 4 8 52.44 1.68 1.7448 4 0 4 4 52.95 2.46 1.7293 4 1 4 8 53.96 6.12 1.6994 3 7 0 4 55.32 8.01 1.6608 5 5 2 8 56.14 1.29 1.6382 7 1 2 8 56.64 3.09 1.6250 3 4 4 8 56.88 9.57 1.6187 4 3 4 8 57.58 1.31 1.6006 7 2 2 8 57.66 4.08 1.5986 5 1 4 8 58.62 1.56 1.5748 2 8 0 4 58.71 2.00 1.5726 7 4 0 4 58.74 2.59 1.5719 8 0 0 2 59.94 2.10 1.5433 7 3 2 8 60.90 3.52 1.5212 6 5 2 8 61.50 1.34 1.5077 0 6 4 4 61.59 5.04 1.5057 1 8 2 8 62.09 6.05 1.4949 5 7 0 4 62.89 1.70 1.4778 8 3 0 4 63.05 1.02 1.4743 2 8 2 8 63.44 2.93 1.4662 2 6 4 8 63.62 1.59 1.4626 8 1 2 8 64.96 4.02 1.4357 8 2 2 8 65.44 1.35 1.4261 3 8 2 8 66.67 7.19 1.4029 6 3 4 8 67.13 4.08 1.3944 7 5 2 8 67.77 1.04 1.3828 1 7 4 8 68.65 2.07 1.3671 0 2 6 4 69.11 1.98 1.3591 1 2 6 8 69.21 1.55 1.3575 2 1 6 8 69.24 1.97 1.3570 7 1 4 8 70.18 1.01 1.3411 8 4 2 8 70.49 2.73 1.3359 2 2 6 8 71.44 3.90 1.3204 3 7 4 8 71.85 1.40 1.3139 7 6 2 8 72.76 1.12 1.2997 3 2 6 8 72.77 3.01 1.2996 3 9 2 8 72.81 2.04 1.2989 9 2 2 8 73.11 1.75 1.2944 1 10 0 4 73.28 1.67 1.2918 7 7 0 4 73.81 2.21 1.2838 9 4 0 4 74.64 1.36 1.2715 4 1 6 8 75.49 1.19 1.2593 2 8 4 8 75.57 1.35 1.2582 7 4 4 8 75.60 2.07 1.2579 8 0 4 4 75.62 1.15 1.2575 10 0 0 2 75.90 1.74 1.2536 4 9 2 8 76.68 1.00 1.2428 3 10 0 4 78.58 5.01 1.2174 5 7 4 8 79.31 1.40 1.2081 8 3 4 8 79.86 3.74 1.2010 5 9 2 8 81.22 2.39 1.1844 10 2 2 8 81.43 1.72 1.1818 3 5 6 8 82.42 1.83 1.1701 1 6 6 8 83.43 1.93 1.1586 6 1 6 8 84.47 1.62 1.1469 4 5 6 8 84.65 1.05 1.1450 6 9 2 8 85.93 1.42 1.1311 9 6 2 8 88.26 1.10 1.1072 4 11 0 4 88.35 1.42 1.1062 5 5 6 8 88.83 1.89 1.1015 1 10 4 8 88.99 1.84 1.0999 7 7 4 8 89.50 2.13 1.0950 9 4 4 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.