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 FC11 Locality: Shinkolobwe, Democratic Republic of Congo _database_code_amcsd 0005668 CELL PARAMETERS: 12.5840 13.0250 8.3910 90.000 90.000 90.000 SPACE GROUP: Pnam X-RAY WAVELENGTH: 1.541838 Cell Volume: 1375.340 Density (g/cm3): 6.640 MAX. ABS. INTENSITY / VOLUME**2: 137.5429379 RIR: 6.745 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.77 4.53 9.0501 1 1 0 4 13.60 6.80 6.5125 0 2 0 2 14.08 100.00 6.2920 2 0 0 2 15.32 5.56 5.7839 1 2 0 4 15.64 3.99 5.6656 2 1 0 4 19.62 1.40 4.5251 2 2 0 4 21.18 1.81 4.1955 0 0 2 2 22.27 34.70 3.9927 3 1 0 4 22.32 3.03 3.9828 2 2 1 8 24.92 27.71 3.5735 2 3 0 4 25.25 51.76 3.5270 0 2 2 4 25.25 5.74 3.5265 3 2 0 4 26.24 51.31 3.3961 1 2 2 8 26.43 40.66 3.3717 2 1 2 8 27.12 1.57 3.2878 2 3 1 8 28.31 50.93 3.1524 1 4 0 4 28.37 4.59 3.1460 4 0 0 2 29.02 55.64 3.0766 2 2 2 8 29.20 8.59 3.0581 4 1 0 4 29.61 2.48 3.0167 3 3 0 4 30.47 5.90 2.9339 1 3 2 8 30.92 7.67 2.8923 3 1 2 8 30.92 2.93 2.8919 2 4 0 4 31.51 1.30 2.8388 3 3 1 8 32.75 1.21 2.7347 0 1 3 4 33.19 15.16 2.6995 3 2 2 8 34.88 10.75 2.5724 0 4 2 4 34.88 8.97 2.5722 3 4 0 4 35.23 23.34 2.5475 4 3 0 4 35.62 1.11 2.5203 1 4 2 8 36.35 13.84 2.4713 4 1 2 8 36.36 7.73 2.4711 5 1 0 4 36.69 3.09 2.4493 3 3 2 8 38.34 1.95 2.3477 4 2 2 8 41.43 2.51 2.1797 1 5 2 8 41.47 1.18 2.1774 5 3 0 4 41.60 2.76 2.1708 0 6 0 2 42.25 1.48 2.1392 1 6 0 4 42.45 4.54 2.1292 5 1 2 8 43.12 19.25 2.0977 0 0 4 2 43.34 4.49 2.0877 2 5 2 8 44.13 5.41 2.0521 2 6 0 4 45.10 1.34 2.0104 6 1 1 8 45.19 1.03 2.0064 4 5 0 4 45.58 8.87 1.9901 2 0 4 4 46.02 1.05 1.9720 1 2 4 8 46.39 15.26 1.9574 3 5 2 8 47.02 6.51 1.9326 5 3 2 8 47.72 15.76 1.9058 1 6 2 8 48.06 1.20 1.8933 3 4 3 8 48.19 13.72 1.8885 6 3 0 4 48.29 1.67 1.8848 1 5 3 8 49.06 6.38 1.8570 3 1 4 8 49.06 15.02 1.8568 6 1 2 8 49.44 3.15 1.8434 2 6 2 8 49.52 2.10 1.8407 1 7 0 4 50.42 12.48 1.8101 4 5 2 8 50.45 7.73 1.8091 2 3 4 8 50.63 1.15 1.8029 3 2 4 8 50.64 2.13 1.8027 6 2 2 8 51.30 2.90 1.7808 7 1 0 4 52.22 4.76 1.7518 3 6 2 8 52.39 16.49 1.7464 1 4 4 8 52.43 1.74 1.7453 4 0 4 4 52.93 2.58 1.7299 4 1 4 8 53.90 6.43 1.7009 3 7 0 4 55.27 8.39 1.6620 5 5 2 8 56.11 1.36 1.6393 7 1 2 8 56.62 3.25 1.6257 3 4 4 8 56.86 10.02 1.6194 4 3 4 8 57.54 1.35 1.6017 7 2 2 8 57.64 4.21 1.5992 5 1 4 8 58.56 1.62 1.5762 2 8 0 4 58.66 2.11 1.5738 7 4 0 4 58.69 2.73 1.5730 8 0 0 2 59.89 2.17 1.5443 7 3 2 8 60.85 3.72 1.5223 6 5 2 8 61.47 1.39 1.5085 0 6 4 4 61.54 5.29 1.5069 1 8 2 8 62.03 6.41 1.4962 5 7 0 4 62.83 1.77 1.4789 8 3 0 4 63.00 1.10 1.4755 2 8 2 8 63.41 3.09 1.4669 2 6 4 8 63.57 1.70 1.4636 8 1 2 8 64.91 4.25 1.4366 8 2 2 8 65.39 1.44 1.4273 3 8 2 8 66.63 7.55 1.4035 6 3 4 8 67.08 4.31 1.3954 7 5 2 8 67.72 1.10 1.3836 1 7 4 8 68.64 2.22 1.3673 0 2 6 4 69.10 2.13 1.3593 1 2 6 8 69.19 1.65 1.3577 2 1 6 8 69.20 2.09 1.3576 7 1 4 8 70.12 1.06 1.3420 8 4 2 8 70.48 2.94 1.3361 2 2 6 8 71.40 4.21 1.3212 3 7 4 8 71.79 1.50 1.3148 7 6 2 8 72.70 3.23 1.3007 3 9 2 8 72.74 1.20 1.3000 3 2 6 8 72.75 2.23 1.2998 9 2 2 8 73.03 1.92 1.2956 1 10 0 4 73.21 1.81 1.2929 7 7 0 4 73.75 2.37 1.2848 9 4 0 4 74.62 1.50 1.2718 4 1 6 8 75.44 1.28 1.2601 2 8 4 8 75.52 1.46 1.2589 7 4 4 8 75.55 2.24 1.2585 8 0 4 4 75.56 1.25 1.2584 10 0 0 2 75.83 1.88 1.2546 4 9 2 8 76.60 1.09 1.2439 3 10 0 4 78.53 5.46 1.2181 5 7 4 8 79.25 1.51 1.2087 8 3 4 8 79.79 4.05 1.2020 5 9 2 8 81.15 2.63 1.1852 10 2 2 8 81.40 1.87 1.1822 3 5 6 8 82.38 1.98 1.1706 1 6 6 8 83.39 2.12 1.1589 6 1 6 8 84.43 1.80 1.1473 4 5 6 8 84.56 1.13 1.1459 6 9 2 8 85.86 1.56 1.1319 9 6 2 8 88.16 1.20 1.1082 4 11 0 4 88.31 1.58 1.1067 5 5 6 8 88.75 2.13 1.1023 1 10 4 8 88.92 2.05 1.1006 7 7 4 8 89.44 2.34 1.0956 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.