Vanadinite Okudera H American Mineralogist 98 (2013) 1573-1579 Relationships among channel typology and atomic displacements in the structures of Pb5(BO4)3Cl with B = P (pyromorphite), V (vanadinite), and As (mimetite) Locality: Mibladen, Morocco _database_code_amcsd 0020248 CELL PARAMETERS: 10.3231 10.3231 7.3399 90.000 90.000 120.000 SPACE GROUP: P6_3/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 677.394 Density (g/cm3): 6.426 MAX. ABS. INTENSITY / VOLUME**2: 133.6621107 RIR: 6.773 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.89 1.47 8.9401 1 0 0 6 17.18 6.63 5.1616 1 1 0 6 19.86 22.39 4.4700 2 0 0 6 21.04 28.77 4.2221 1 1 1 12 23.30 5.16 3.8178 2 0 1 12 24.25 8.26 3.6700 0 0 2 2 26.25 24.52 3.3950 1 0 2 12 26.38 16.15 3.3790 1 2 0 6 26.38 18.51 3.3790 2 1 0 6 29.09 45.30 3.0694 1 2 1 12 29.09 54.70 3.0694 2 1 1 12 29.87 93.30 2.9910 1 1 2 12 29.99 53.08 2.9800 3 0 0 6 31.54 1.49 2.8364 2 0 2 12 32.43 1.46 2.7611 3 0 1 12 34.76 2.63 2.5808 2 2 0 6 36.13 2.02 2.4858 1 2 2 12 38.32 1.52 2.3491 1 3 1 12 38.93 5.04 2.3134 3 0 2 12 40.35 5.02 2.2350 4 0 0 6 40.82 9.71 2.2108 1 1 3 12 42.84 34.81 2.1111 2 2 2 12 44.08 3.67 2.0546 1 3 2 12 44.08 11.90 2.0546 3 1 2 12 44.16 6.95 2.0510 2 3 0 6 45.79 16.80 1.9817 1 2 3 12 45.79 11.02 1.9817 2 1 3 12 45.94 14.14 1.9753 2 3 1 12 45.94 6.90 1.9753 3 2 1 12 46.55 7.85 1.9509 1 4 0 6 46.55 15.81 1.9509 4 1 0 6 47.64 27.13 1.9089 4 0 2 12 49.68 12.80 1.8350 0 0 4 2 51.01 1.94 1.7904 3 2 2 12 52.55 1.34 1.7415 1 3 3 12 52.96 1.12 1.7290 1 1 4 12 53.17 3.32 1.7226 1 4 2 12 53.17 1.01 1.7226 4 1 2 12 54.02 2.57 1.6975 2 0 4 12 54.30 3.78 1.6895 2 4 0 6 54.30 2.25 1.6895 4 2 0 6 54.80 6.58 1.6751 3 3 1 12 57.12 4.89 1.6125 1 2 4 12 57.12 3.37 1.6125 2 1 4 12 57.32 7.36 1.6074 5 0 2 12 57.39 1.53 1.6057 1 5 0 6 57.39 2.15 1.6057 5 1 0 6 58.74 3.08 1.5718 2 3 3 12 58.74 4.42 1.5718 3 2 3 12 58.87 2.92 1.5686 1 5 1 12 58.87 4.85 1.5686 5 1 1 12 59.13 11.76 1.5625 3 0 4 12 59.32 10.47 1.5578 3 3 2 12 63.73 1.10 1.4602 6 0 1 12 65.17 1.54 1.4316 2 5 0 6 65.86 2.36 1.4182 4 0 4 12 66.18 1.01 1.4120 1 1 5 12 66.43 2.79 1.4074 3 3 3 12 66.55 4.15 1.4051 5 2 1 12 67.89 6.46 1.3806 6 0 2 12 68.63 2.64 1.3675 2 3 4 12 68.81 4.25 1.3644 3 4 2 12 68.87 1.85 1.3633 1 6 0 6 68.87 1.08 1.3633 6 1 0 6 69.86 2.13 1.3464 1 2 5 12 69.86 4.42 1.3464 2 1 5 12 70.10 2.15 1.3424 1 5 3 12 70.10 1.75 1.3424 5 1 3 12 70.22 2.23 1.3404 1 6 1 12 70.45 4.33 1.3366 1 4 4 12 70.45 7.16 1.3366 4 1 4 12 70.63 4.76 1.3337 2 5 2 12 70.63 4.88 1.3337 5 2 2 12 73.37 5.30 1.2904 4 4 0 6 76.67 1.98 1.2429 4 2 4 12 76.67 2.27 1.2429 2 4 4 12 77.21 2.78 1.2356 5 2 3 12 79.28 1.63 1.2084 5 1 4 12 79.28 1.22 1.2084 1 5 4 12 79.45 4.38 1.2062 3 5 2 12 79.45 1.26 1.2062 7 0 2 12 80.45 3.02 1.1937 2 3 5 12 80.73 4.49 1.1903 1 1 6 12 81.24 2.53 1.1841 7 1 0 6 81.24 1.24 1.1841 1 7 0 6 87.31 1.44 1.1167 3 3 5 12 88.44 3.01 1.1054 2 2 6 12 89.57 1.73 1.0944 1 6 4 12 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.