Finnemanite Effenberger H, Pertlik F Tschermaks Mineralogische und Petrographische Mitteilungen 26 (1979) 95-107 Die kristallstruktur des finnemanits, Pb5Cl(AsO3)3, mit einem vergleich zum strukturtyp des chlorapatits, Ca5Cl(PO4)3 Locality: Langban, Varmland, Sweden _database_code_amcsd 0015673 CELL PARAMETERS: 10.3220 10.3220 7.0540 90.000 90.000 120.000 SPACE GROUP: P6_3/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 650.869 Density (g/cm3): 7.348 MAX. ABS. INTENSITY / VOLUME**2: 177.7545558 RIR: 7.877 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.89 1.27 8.9391 1 0 0 6 16.01 14.04 5.5375 1 0 1 12 17.18 5.20 5.1610 1 1 0 6 19.86 16.98 4.4696 2 0 0 6 21.33 18.82 4.1652 1 1 1 12 23.56 12.21 3.7755 2 0 1 12 25.25 7.90 3.5270 0 0 2 2 26.38 20.40 3.3787 1 2 0 6 26.38 15.99 3.3787 2 1 0 6 27.18 23.01 3.2809 1 0 2 12 29.31 34.71 3.0472 2 1 1 12 29.31 65.29 3.0472 1 2 1 12 29.99 48.55 2.9797 3 0 0 6 30.70 90.01 2.9120 1 1 2 12 32.33 2.10 2.7688 2 0 2 12 32.62 5.03 2.7449 3 0 1 12 34.76 6.32 2.5805 2 2 0 6 36.23 1.31 2.4793 3 1 0 6 36.23 3.27 2.4793 1 3 0 6 36.84 3.67 2.4398 1 2 2 12 37.10 2.61 2.4234 2 2 1 12 38.49 6.64 2.3390 1 3 1 12 39.59 5.27 2.2762 3 0 2 12 40.36 2.81 2.2348 4 0 0 6 42.24 6.24 2.1397 1 1 3 12 43.45 21.10 2.0826 2 2 2 12 43.49 2.97 2.0809 2 0 3 12 44.16 6.34 2.0508 2 3 0 6 44.68 19.57 2.0283 3 1 2 12 46.09 15.14 1.9692 2 3 1 12 46.09 2.51 1.9692 3 2 1 12 46.56 2.57 1.9507 1 4 0 6 46.56 19.64 1.9507 4 1 0 6 47.09 12.45 1.9300 1 2 3 12 47.09 12.64 1.9300 2 1 3 12 48.21 19.79 1.8877 4 0 2 12 48.41 1.76 1.8801 1 4 1 12 49.37 1.71 1.8458 3 0 3 12 51.55 6.44 1.7729 3 2 2 12 51.84 11.31 1.7635 0 0 4 2 53.70 8.64 1.7070 1 4 2 12 53.73 1.01 1.7061 1 3 3 12 53.73 2.37 1.7061 3 1 3 12 54.30 3.30 1.6893 2 4 0 6 54.30 1.80 1.6893 4 2 0 6 54.94 4.20 1.6713 3 3 1 12 55.97 1.02 1.6429 2 4 1 12 55.97 5.55 1.6429 4 2 1 12 56.06 1.61 1.6404 2 0 4 12 57.39 2.10 1.6055 1 5 0 6 57.39 1.60 1.6055 5 1 0 6 57.82 7.74 1.5947 5 0 2 12 59.00 1.20 1.5655 1 5 1 12 59.09 5.09 1.5634 1 2 4 12 59.09 2.33 1.5634 2 1 4 12 59.81 10.78 1.5462 3 3 2 12 59.84 6.57 1.5455 2 3 3 12 61.06 9.02 1.5176 3 0 4 12 61.79 1.12 1.5013 1 4 3 12 63.28 1.54 1.4696 4 3 0 6 63.86 5.11 1.4577 6 0 1 12 63.94 1.54 1.4560 2 2 4 12 64.89 1.55 1.4370 1 3 4 12 65.17 4.87 1.4314 2 5 0 6 65.17 1.06 1.4314 5 2 0 6 66.67 4.36 1.4028 5 2 1 12 67.46 1.84 1.3884 3 3 3 12 67.68 1.45 1.3844 4 0 4 12 68.35 8.30 1.3724 6 0 2 12 68.38 1.78 1.3720 4 2 3 12 68.88 1.63 1.3632 1 6 0 6 69.26 3.68 1.3565 3 4 2 12 70.42 2.12 1.3371 2 3 4 12 71.08 3.17 1.3263 5 2 2 12 72.22 1.20 1.3082 1 4 4 12 72.22 7.98 1.3082 4 1 4 12 72.62 5.35 1.3019 1 2 5 12 72.62 1.32 1.3019 2 1 5 12 73.38 2.18 1.2902 4 4 0 6 74.27 1.71 1.2770 3 5 0 6 75.55 3.62 1.2585 6 0 3 12 77.91 1.13 1.2262 1 3 5 12 78.18 2.95 1.2227 5 2 3 12 78.39 1.89 1.2199 2 4 4 12 78.39 1.41 1.2199 4 2 4 12 79.89 7.32 1.2007 3 5 2 12 80.99 1.50 1.1872 1 5 4 12 80.99 1.04 1.1872 5 1 4 12 81.25 3.40 1.1840 7 1 0 6 83.10 1.69 1.1623 2 3 5 12 84.52 3.65 1.1463 1 1 6 12 86.76 2.27 1.1225 1 7 2 12 87.84 2.98 1.1114 2 5 4 12 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.