Bariopharmacoalumite Grey I E, Mumme W G, Price J R, Mills S J, Macrae C M, Favreau G Mineralogical Magazine 78 (2014) 851-860 BaCu ordering in bariopharmacoalumite-Q2a2b2c from Cap Garonne, France Locality: South mine, Cap Garonne, France _database_code_amcsd 0020526 CELL PARAMETERS: 15.4050 15.4050 15.5530 90.000 90.000 90.000 SPACE GROUP: I-42m X-RAY WAVELENGTH: 1.541838 Cell Volume: 3690.945 Density (g/cm3): 2.773 MAX. ABS. INTENSITY / VOLUME**2: 17.78140369 RIR: 2.088 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.12 30.37 10.8930 1 1 0 4 11.38 100.00 7.7765 0 0 2 2 11.49 77.29 7.7025 2 0 0 4 13.99 8.26 6.3292 1 1 2 4 16.20 13.40 5.4725 2 0 2 8 18.21 4.49 4.8715 3 1 0 8 19.90 45.54 4.4611 2 2 2 4 21.52 9.93 4.1283 3 1 2 8 22.87 19.73 3.8883 0 0 4 2 23.09 42.10 3.8512 4 0 0 4 24.31 4.13 3.6620 1 1 4 4 25.66 2.19 3.4711 2 0 4 8 25.81 11.20 3.4512 4 0 2 8 25.86 1.91 3.4447 4 2 0 8 27.10 6.41 3.2900 3 3 2 4 28.20 12.60 3.1646 2 2 4 4 28.34 53.61 3.1495 4 2 2 8 29.39 3.02 3.0389 3 1 4 8 29.57 2.39 3.0212 5 1 0 8 32.73 60.44 2.7362 4 0 4 8 32.89 27.29 2.7232 4 4 0 4 34.79 1.11 2.5784 4 2 4 8 34.91 6.37 2.5702 4 4 2 4 34.95 3.93 2.5675 6 0 0 4 35.90 2.63 2.5015 5 3 2 8 36.58 13.39 2.4568 2 0 6 8 36.87 9.96 2.4381 6 0 2 8 36.90 4.04 2.4357 6 2 0 8 37.71 6.96 2.3857 5 1 4 8 38.46 9.11 2.3406 2 2 6 4 38.74 16.73 2.3244 6 2 2 8 39.37 2.97 2.2884 3 1 6 8 40.44 24.53 2.2306 4 4 4 4 41.32 1.93 2.1852 5 3 4 8 41.45 1.24 2.1786 5 5 0 4 42.02 1.69 2.1504 4 0 6 8 42.87 1.93 2.1097 3 3 6 4 43.12 1.67 2.0978 7 1 2 8 43.70 6.37 2.0712 4 2 6 8 43.95 4.73 2.0600 6 4 2 8 46.38 2.59 1.9576 7 3 2 8 47.51 1.16 1.9139 1 1 8 4 47.86 1.67 1.9006 7 1 4 8 48.28 3.69 1.8850 2 0 8 8 48.48 2.15 1.8776 4 4 6 4 48.75 1.37 1.8681 8 2 0 8 49.80 1.22 1.8310 2 2 8 4 50.23 11.89 1.8165 8 2 2 8 51.48 6.48 1.7751 6 2 6 8 51.70 3.93 1.7680 6 6 2 4 52.74 10.29 1.7355 4 0 8 8 53.07 10.69 1.7256 8 0 4 8 53.18 10.11 1.7223 8 4 0 8 54.57 3.88 1.6816 8 4 2 8 55.76 3.45 1.6486 6 4 6 8 58.32 6.89 1.5823 4 4 8 4 58.62 9.78 1.5748 8 4 4 8 59.66 2.44 1.5499 6 0 8 8 59.83 4.88 1.5458 8 0 6 8 60.06 1.73 1.5405 8 6 0 8 60.75 1.35 1.5245 2 0 10 8 61.15 1.19 1.5156 8 2 6 8 62.06 1.84 1.4955 2 2 10 4 62.45 2.24 1.4870 6 6 6 4 62.65 3.32 1.4829 10 2 2 8 65.01 2.12 1.4345 8 4 6 8 65.89 2.56 1.4175 4 2 10 8 66.39 1.10 1.4081 10 2 4 8 66.46 2.44 1.4067 10 4 2 8 68.59 12.21 1.3681 8 0 8 8 68.97 5.88 1.3616 8 8 0 4 69.82 2.25 1.3470 8 2 8 8 70.17 3.12 1.3412 8 8 2 4 71.20 2.99 1.3243 8 6 6 8 72.04 1.90 1.3109 6 2 10 8 72.41 2.53 1.3051 10 2 6 8 72.59 2.79 1.3023 10 6 2 8 73.45 4.57 1.2892 8 4 8 8 73.72 1.78 1.2851 8 8 4 4 73.81 2.36 1.2837 12 0 0 4 76.17 1.22 1.2498 12 2 2 8 77.74 2.16 1.2284 4 0 12 8 78.46 1.43 1.2190 12 0 4 8 78.54 1.55 1.2179 12 4 0 8 79.16 1.31 1.2099 8 0 10 8 79.36 1.02 1.2074 8 6 8 8 81.84 1.46 1.1770 10 6 6 8 82.41 1.78 1.1703 4 4 12 4 83.11 3.87 1.1622 12 4 4 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.