Conichalcite Sakai S, Yoshiasa A, Sugiyama K, Miyawaki R Journal of Mineralogical and Petrological Sciences 104 (2009) 125-131 Crystal structure and chemistry of conichalcite, CaCu(AsO4)(OH) Locality: Gozaisho mine, Fukushima, Japan _database_code_amcsd 0018381 CELL PARAMETERS: 7.4290 5.8520 9.2150 90.000 90.000 90.000 SPACE GROUP: P2_12_12_1 X-RAY WAVELENGTH: 1.541838 Cell Volume: 400.618 Density (g/cm3): 4.218 MAX. ABS. INTENSITY / VOLUME**2: 21.26678301 RIR: 1.642 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 15.32 24.87 5.7836 1 0 1 4 17.96 27.52 4.9400 0 1 1 4 21.60 43.37 4.1136 1 1 1 4 22.71 16.25 3.9156 1 0 2 4 23.96 18.05 3.7145 2 0 0 2 24.59 1.43 3.6201 0 1 2 4 25.86 21.30 3.4451 2 0 1 4 27.41 16.02 3.2543 1 1 2 4 28.46 100.00 3.1361 2 1 0 4 30.10 1.42 2.9689 2 1 1 4 30.55 12.06 2.9260 0 2 0 2 30.92 22.81 2.8918 2 0 2 4 31.52 98.52 2.8386 1 0 3 4 32.10 1.13 2.7888 0 2 1 4 34.35 78.34 2.6109 1 2 1 4 34.60 41.57 2.5925 2 1 2 4 35.14 51.16 2.5540 1 1 3 4 36.37 15.93 2.4700 0 2 2 4 37.61 12.04 2.3915 3 0 1 4 38.01 10.50 2.3671 2 0 3 4 38.41 14.61 2.3439 1 2 2 4 39.10 3.09 2.3038 0 0 4 2 39.19 14.15 2.2985 2 2 0 4 40.45 1.36 2.2302 2 2 1 4 40.76 2.04 2.2138 3 1 1 4 44.03 18.89 2.0568 2 2 2 4 44.32 2.75 2.0439 3 1 2 4 44.47 2.95 2.0374 1 2 3 4 46.38 6.29 1.9578 2 0 4 4 47.14 1.24 1.9279 3 0 3 4 49.05 4.80 1.8572 4 0 0 2 49.07 5.79 1.8566 2 1 4 4 49.21 6.61 1.8517 3 2 1 4 49.30 6.66 1.8484 1 3 1 4 49.80 19.28 1.8311 3 1 3 4 50.42 19.57 1.8101 0 2 4 4 50.83 1.94 1.7963 0 3 2 4 52.40 1.36 1.7460 1 3 2 4 52.65 1.58 1.7384 4 1 1 4 53.02 12.42 1.7270 2 3 0 4 53.17 22.63 1.7226 4 0 2 4 53.57 6.85 1.7106 1 1 5 4 55.67 1.38 1.6510 2 0 5 4 56.56 7.37 1.6271 2 2 4 4 56.80 2.80 1.6207 3 1 4 4 56.94 5.11 1.6171 2 3 2 4 57.22 42.94 1.6098 3 2 3 4 57.31 9.58 1.6077 1 3 3 4 58.90 17.77 1.5680 4 2 0 4 60.26 5.99 1.5358 0 0 6 2 60.68 20.91 1.5262 1 2 5 4 62.86 7.22 1.4785 3 0 5 4 63.41 5.19 1.4669 5 0 1 4 63.60 12.21 1.4630 0 4 0 2 64.04 1.44 1.4540 3 3 2 4 64.44 3.92 1.4459 4 0 4 4 64.84 5.13 1.4379 2 2 5 4 65.07 3.34 1.4334 3 1 5 4 65.61 1.78 1.4228 5 1 1 4 65.80 1.51 1.4193 2 0 6 4 65.85 2.62 1.4183 1 4 1 4 66.07 1.22 1.4141 5 0 2 4 67.82 2.19 1.3818 2 3 4 4 67.96 10.09 1.3793 2 1 6 4 68.42 5.37 1.3712 3 3 3 4 68.46 1.09 1.3705 1 4 2 4 69.85 1.70 1.3466 2 4 1 4 71.57 2.27 1.3184 1 3 5 4 72.39 2.61 1.3054 2 4 2 4 72.49 4.46 1.3039 5 1 3 4 72.71 12.04 1.3004 1 4 3 4 74.27 2.20 1.2770 2 2 6 4 74.29 1.31 1.2767 4 1 5 4 74.53 2.00 1.2732 5 2 2 4 76.30 3.88 1.2480 3 4 1 4 78.65 8.73 1.2165 5 2 3 4 79.05 4.94 1.2113 6 1 0 4 81.16 2.66 1.1851 1 2 7 4 81.73 1.64 1.1783 3 3 5 4 82.27 2.49 1.1719 2 4 4 4 83.09 2.95 1.1624 3 0 7 4 83.59 2.28 1.1567 5 0 5 4 84.26 1.22 1.1493 4 4 0 4 84.40 4.54 1.1477 2 3 6 4 84.45 1.13 1.1471 1 5 1 4 85.59 1.28 1.1348 5 1 5 4 87.36 2.39 1.1163 2 5 0 4 87.47 5.81 1.1151 4 4 2 4 88.29 1.08 1.1069 6 2 2 4 88.67 2.45 1.1031 5 3 3 4 89.27 10.19 1.0972 4 2 6 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.