Vauquelinite Fanfani L, Zanazzi P F Zeitschrift fur Kristallographie 126 (1968) 433-443 The crystal structure of vauquelinite and the relationships to fornacite Locality: Beresov, Ural Mountains, Russia _database_code_amcsd 0010658 CELL PARAMETERS: 13.7540 5.8060 9.5630 90.000 94.570 90.000 SPACE GROUP: P2_1/n X-RAY WAVELENGTH: 1.541838 Cell Volume: 761.232 Density (g/cm3): 6.150 MAX. ABS. INTENSITY / VOLUME**2: 91.43996156 RIR: 4.841 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.87 12.65 8.1364 -1 0 1 2 18.62 5.29 4.7663 0 0 2 2 18.78 55.31 4.7261 -1 1 1 4 20.04 11.39 4.4305 2 1 0 4 21.68 1.54 4.0992 -2 1 1 4 21.85 9.78 4.0682 -2 0 2 2 22.23 16.90 3.9987 3 0 1 2 23.57 12.44 3.7749 2 0 2 2 24.16 16.11 3.6840 0 1 2 4 25.96 4.88 3.4322 -3 1 1 4 26.00 8.59 3.4276 4 0 0 2 26.76 24.80 3.3317 -2 1 2 4 27.08 100.00 3.2932 3 1 1 4 28.32 13.71 3.1512 -1 0 3 2 29.35 10.83 3.0426 1 0 3 2 30.28 23.80 2.9516 4 1 0 4 30.80 29.77 2.9030 0 2 0 2 30.90 36.76 2.8942 -4 0 2 2 31.50 2.00 2.8400 1 2 0 4 32.23 1.29 2.7771 0 2 1 4 32.32 38.98 2.7696 -1 1 3 4 32.75 11.37 2.7342 -1 2 1 4 33.03 6.00 2.7121 -3 0 3 2 33.06 5.41 2.7096 1 2 1 4 33.24 28.47 2.6950 1 1 3 4 33.27 2.68 2.6928 -5 0 1 2 33.52 5.48 2.6732 2 2 0 4 34.63 2.90 2.5902 -4 1 2 4 34.76 3.08 2.5811 5 0 1 2 35.68 4.15 2.5166 3 0 3 2 36.23 1.22 2.4793 0 2 2 4 36.79 2.90 2.4429 -5 1 1 4 37.12 1.52 2.4222 1 2 2 4 37.50 5.70 2.3981 -3 2 1 4 38.08 5.36 2.3631 -2 2 2 4 39.01 7.55 2.3088 -2 0 4 2 39.15 32.73 2.3012 2 2 2 4 39.43 3.95 2.2850 6 0 0 2 40.68 1.25 2.2182 -3 2 2 4 40.73 2.78 2.2152 4 2 0 4 40.94 2.32 2.2047 0 1 4 4 41.08 1.21 2.1974 2 0 4 2 42.33 1.91 2.1351 -1 2 3 4 42.49 1.86 2.1276 -6 0 2 2 43.07 1.53 2.1004 1 2 3 4 44.06 7.72 2.0551 2 1 4 4 44.19 16.14 2.0496 -4 2 2 4 44.71 13.23 2.0269 -5 1 3 4 45.36 5.43 1.9993 6 0 2 2 45.97 8.89 1.9742 -5 2 1 4 46.06 1.07 1.9705 4 2 2 4 48.13 5.63 1.8904 6 1 2 4 48.15 8.52 1.8898 5 1 3 4 48.17 6.43 1.8891 7 0 1 2 48.21 10.21 1.8875 4 0 4 2 48.34 4.78 1.8828 -1 3 1 4 48.74 1.05 1.8682 1 0 5 2 48.90 1.05 1.8625 2 3 0 4 49.31 15.04 1.8480 -7 1 1 4 49.67 1.32 1.8355 -2 3 1 4 50.37 1.20 1.8116 -3 0 5 2 50.51 8.85 1.8070 -2 2 4 4 50.85 5.17 1.7955 6 2 0 4 50.93 1.39 1.7931 0 3 2 4 51.38 3.41 1.7784 1 1 5 4 52.21 4.87 1.7520 2 2 4 4 52.35 3.13 1.7477 -2 3 2 4 52.53 8.86 1.7420 3 3 1 4 52.78 1.81 1.7344 -5 2 3 4 52.95 9.82 1.7294 -3 1 5 4 53.28 1.40 1.7192 -6 0 4 2 54.45 3.14 1.6852 4 3 0 4 55.52 2.57 1.6552 -8 0 2 2 55.60 1.16 1.6529 0 3 3 4 55.74 5.33 1.6491 -1 3 3 4 55.76 2.78 1.6485 -6 1 4 4 55.83 6.12 1.6466 6 2 2 4 55.85 2.02 1.6462 5 2 3 4 55.94 1.64 1.6437 8 1 0 4 56.34 3.00 1.6330 1 3 3 4 56.56 1.01 1.6273 -5 0 5 2 57.93 2.98 1.5918 -8 1 2 4 58.06 6.24 1.5888 0 0 6 2 58.27 2.10 1.5834 7 2 1 4 58.31 2.51 1.5824 4 2 4 4 58.78 3.16 1.5710 1 2 5 4 62.44 1.25 1.4874 -4 0 6 2 62.82 5.27 1.4793 -6 2 4 4 64.12 1.82 1.4523 2 3 4 4 64.16 4.47 1.4515 0 4 0 2 64.38 1.32 1.4471 -8 0 4 2 64.62 2.37 1.4423 -5 3 3 4 64.69 1.48 1.4408 -4 1 6 4 64.76 1.63 1.4395 9 1 1 4 65.55 1.25 1.4240 -7 0 5 2 67.17 4.71 1.3937 0 2 6 4 67.34 1.35 1.3906 6 3 2 4 67.35 2.36 1.3903 5 3 3 4 68.04 1.28 1.3779 -9 1 3 4 68.29 3.98 1.3734 -7 3 1 4 68.43 1.03 1.3710 10 0 0 2 69.03 2.15 1.3606 4 1 6 4 70.27 1.75 1.3396 5 2 5 4 70.88 1.23 1.3296 -1 1 7 4 71.31 2.97 1.3226 -3 3 5 4 71.57 1.14 1.3184 -1 4 3 4 72.28 1.97 1.3072 8 1 4 4 72.80 1.08 1.2991 9 1 3 4 72.91 2.85 1.2975 -4 4 2 4 73.91 2.42 1.2823 7 1 5 4 74.45 1.66 1.2744 -9 2 3 4 75.46 1.32 1.2598 10 1 2 4 76.25 1.17 1.2487 -11 0 1 2 76.32 2.27 1.2477 3 1 7 4 76.90 3.18 1.2397 10 2 0 4 77.73 1.05 1.2286 -6 2 6 4 79.05 1.55 1.2113 9 2 3 4 82.55 1.01 1.1687 -11 1 3 4 83.79 1.02 1.1545 6 2 6 4 83.80 1.14 1.1544 -4 0 8 2 84.10 1.20 1.1510 7 4 1 4 84.14 1.71 1.1506 4 4 4 4 85.13 1.90 1.1397 -7 1 7 4 87.47 1.21 1.1151 3 5 1 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.