Fourmarierite Li Y, Burns P C The Canadian Mineralogist 38 (2000) 737-749 Investigations of crystal-chemical variability in lead uranyl oxide hydrates. II. Fourmarierite Note: sample M31669 Locality: Shinkolobwe, Democratic Republic of Congo _database_code_amcsd 0005678 CELL PARAMETERS: 14.0000 16.4170 14.3570 90.000 90.000 90.000 SPACE GROUP: Bb2_1m X-RAY WAVELENGTH: 1.541838 Cell Volume: 3299.784 Density (g/cm3): 5.957 MAX. ABS. INTENSITY / VOLUME**2: 155.4909013 RIR: 8.499 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.34 8.87 8.5549 1 1 1 4 10.78 1.99 8.2085 0 2 0 1 12.33 100.00 7.1785 0 0 2 2 12.65 3.49 7.0000 2 0 0 2 13.75 11.58 6.4391 2 1 0 2 13.94 5.38 6.3507 1 2 1 4 17.70 3.38 5.0117 2 0 2 4 18.47 4.14 4.8031 1 3 1 4 18.51 1.01 4.7933 2 1 2 4 20.34 16.61 4.3654 1 1 3 4 20.60 3.27 4.3113 2 3 0 2 20.77 3.91 4.2774 2 2 2 4 21.65 3.55 4.1042 0 4 0 1 22.78 7.05 3.9040 3 2 1 4 24.08 2.16 3.6959 2 3 2 4 24.81 43.28 3.5893 0 0 4 2 24.99 2.38 3.5630 0 4 2 2 25.15 45.28 3.5406 2 4 0 2 25.45 19.97 3.5000 4 0 0 2 25.53 1.87 3.4888 1 3 3 4 26.03 2.31 3.4231 4 1 0 2 27.24 2.39 3.2740 3 1 3 4 28.10 96.81 3.1753 2 4 2 4 28.37 39.83 3.1460 4 0 2 4 28.47 3.65 3.1351 2 1 4 4 28.61 4.45 3.1203 1 5 1 4 28.85 2.95 3.0946 3 2 3 4 28.90 6.95 3.0898 4 1 2 4 30.06 1.28 2.9726 2 5 0 2 32.46 1.60 2.7584 2 3 4 4 32.73 1.85 2.7362 0 6 0 1 32.84 11.85 2.7274 4 3 2 4 33.16 1.88 2.7018 0 4 4 2 34.41 1.06 2.6060 5 2 1 4 35.62 17.47 2.5206 2 4 4 4 35.84 8.88 2.5058 4 0 4 4 35.90 2.20 2.5017 1 3 5 4 37.59 2.67 2.3928 0 0 6 2 38.41 1.48 2.3437 3 2 5 4 38.84 1.37 2.3183 5 2 3 4 38.99 4.27 2.3101 6 1 0 2 39.81 1.31 2.2642 2 0 6 4 40.40 1.58 2.2327 3 3 5 4 40.57 4.15 2.2238 2 7 0 2 40.66 1.04 2.2191 6 0 2 4 41.04 1.94 2.1991 6 1 2 4 41.37 1.22 2.1827 2 2 6 4 41.50 2.02 2.1760 0 6 4 2 41.91 1.53 2.1556 4 6 0 2 42.10 1.38 2.1464 6 3 0 2 42.31 3.38 2.1362 1 5 5 4 42.71 1.88 2.1169 3 6 3 4 43.85 2.62 2.0646 4 6 2 4 44.03 1.49 2.0564 6 3 2 4 44.13 7.65 2.0521 0 8 0 1 44.67 13.11 2.0284 6 4 0 2 45.01 4.81 2.0140 1 1 7 4 45.59 1.28 1.9899 5 1 5 4 45.77 17.94 1.9825 2 4 6 4 45.94 7.70 1.9753 4 0 6 4 46.00 7.21 1.9731 0 8 2 2 46.29 1.61 1.9612 4 1 6 4 46.52 8.56 1.9520 6 4 2 4 46.76 3.41 1.9425 6 1 4 4 47.36 1.06 1.9196 3 7 3 4 47.80 1.49 1.9027 1 3 7 4 47.82 1.11 1.9020 6 5 0 2 47.90 2.19 1.8991 2 8 2 4 48.14 2.94 1.8904 2 7 4 4 48.35 1.31 1.8823 5 3 5 4 48.41 1.35 1.8803 4 7 2 4 48.82 1.46 1.8655 3 1 7 4 49.03 3.49 1.8580 4 3 6 4 49.31 1.41 1.8480 4 6 4 4 49.48 1.23 1.8421 6 3 4 4 49.58 1.70 1.8385 6 5 2 4 50.68 1.46 1.8013 5 4 5 4 50.88 4.28 1.7946 0 0 8 2 51.28 6.73 1.7815 0 8 4 2 51.63 5.29 1.7703 4 8 0 2 51.77 11.70 1.7659 6 4 4 4 52.59 1.24 1.7401 8 1 0 2 53.30 8.03 1.7188 4 8 2 4 53.93 3.67 1.7002 8 0 2 4 55.10 2.39 1.6668 8 3 0 2 55.56 2.31 1.6541 6 7 0 2 56.69 2.78 1.6236 8 3 2 4 57.15 2.20 1.6119 6 7 2 4 57.58 3.76 1.6007 2 4 8 4 57.73 2.07 1.5969 4 0 8 4 58.10 5.18 1.5877 4 8 4 4 58.99 1.23 1.5658 8 1 4 4 59.23 3.02 1.5601 2 10 2 4 59.33 1.99 1.5577 0 8 6 2 59.77 1.98 1.5473 6 4 6 4 60.85 1.44 1.5224 1 3 9 4 61.32 2.67 1.5118 8 3 4 4 61.75 2.47 1.5023 6 7 4 4 63.46 1.15 1.4658 3 7 7 4 63.74 1.02 1.4601 2 10 4 4 65.38 1.03 1.4274 1 5 9 4 65.60 2.86 1.4231 4 8 6 4 66.15 1.25 1.4125 8 0 6 4 68.53 1.53 1.3693 10 1 2 4 68.62 1.04 1.3677 8 3 6 4 69.59 1.87 1.3509 0 8 8 2 69.74 1.68 1.3484 4 11 2 4 70.00 2.89 1.3441 6 4 8 4 70.08 1.13 1.3427 2 12 0 2 70.82 2.59 1.3305 2 4 10 4 70.91 1.43 1.3291 2 10 6 4 70.96 1.09 1.3283 4 0 10 4 71.48 2.62 1.3198 2 12 2 4 72.15 2.05 1.3092 8 8 2 4 75.42 1.51 1.2603 4 8 8 4 75.62 1.49 1.2576 2 12 4 4 75.62 1.19 1.2576 6 10 4 4 81.12 2.62 1.1856 10 7 2 4 82.35 1.43 1.1709 2 12 6 4 82.90 1.07 1.1646 6 12 2 4 82.99 1.12 1.1635 8 8 6 4 86.84 1.24 1.1216 8 11 2 4 86.88 1.07 1.1211 6 12 4 4 89.11 1.05 1.0988 4 14 2 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.