Hashemite Duesler E N, Foord E E American Mineralogist 71 (1986) 1217-1220 Crystal structure of hashemite, BaCrO4, a barite structure type Locality: from a stone quarry 60 km southeast of Amman, west-central Jordan _database_code_amcsd 0001046 CELL PARAMETERS: 9.1028 5.5276 7.3314 90.000 90.000 90.000 SPACE GROUP: Pnma X-RAY WAVELENGTH: 1.541838 Cell Volume: 368.891 Density (g/cm3): 4.525 MAX. ABS. INTENSITY / VOLUME**2: 41.27372651 RIR: 2.970 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 15.52 1.35 5.7098 1 0 1 4 19.50 7.17 4.5514 2 0 0 2 20.12 16.50 4.4137 0 1 1 4 22.39 43.14 3.9715 1 1 1 8 23.00 5.74 3.8668 2 0 1 4 24.28 26.56 3.6657 0 0 2 2 25.35 93.52 3.5136 2 1 0 4 26.21 54.96 3.4003 1 0 2 4 28.16 100.00 3.1685 2 1 1 8 30.87 58.16 2.8962 1 1 2 8 31.92 9.16 2.8036 3 0 1 4 32.39 46.03 2.7638 0 2 0 2 35.39 12.65 2.5366 2 1 2 8 35.92 2.12 2.5004 3 1 1 8 38.09 8.78 2.3624 2 2 0 4 38.13 2.21 2.3602 1 0 3 4 38.52 3.70 2.3374 3 0 2 4 39.60 1.15 2.2757 4 0 0 2 40.10 18.31 2.2485 2 2 1 8 40.35 1.42 2.2351 0 1 3 4 40.89 3.85 2.2068 0 2 2 4 41.55 38.26 2.1734 4 0 1 4 41.61 35.12 2.1706 1 1 3 8 41.96 2.78 2.1531 2 0 3 4 41.97 31.29 2.1528 3 1 2 8 42.13 41.47 2.1447 1 2 2 8 42.98 10.81 2.1043 4 1 0 4 46.12 6.37 1.9682 3 2 1 8 47.79 17.34 1.9033 3 0 3 4 49.75 3.20 1.8328 0 0 4 2 50.73 6.73 1.7996 3 1 3 8 50.82 4.03 1.7968 1 0 4 4 51.11 1.77 1.7870 0 3 1 4 51.74 1.79 1.7669 5 0 1 4 52.16 3.35 1.7535 1 3 1 8 53.64 5.85 1.7088 1 1 4 8 53.65 16.53 1.7084 4 2 1 8 53.67 7.96 1.7079 2 3 0 4 53.93 1.65 1.7002 2 0 4 4 53.99 1.35 1.6985 2 2 3 8 54.52 2.36 1.6830 5 1 1 8 55.22 10.20 1.6634 2 3 1 8 56.64 1.87 1.6250 2 1 4 8 56.83 7.21 1.6200 1 3 2 8 58.92 15.88 1.5675 3 2 3 8 59.07 5.87 1.5639 5 1 2 8 59.73 1.88 1.5481 2 3 2 8 60.62 2.19 1.5275 0 2 4 4 61.43 1.80 1.5092 3 1 4 8 61.56 6.82 1.5064 1 2 4 8 62.38 3.25 1.4887 5 2 1 8 63.60 4.60 1.4630 6 1 0 4 63.75 3.39 1.4600 5 0 3 4 64.12 6.51 1.4524 1 3 3 8 64.33 2.16 1.4481 2 2 4 8 64.39 6.20 1.4470 3 3 2 8 65.00 6.72 1.4347 6 1 1 8 65.14 2.43 1.4320 4 3 0 4 65.91 3.55 1.4173 0 1 5 4 66.21 5.68 1.4116 5 1 3 8 67.06 1.67 1.3956 2 0 5 4 67.81 3.95 1.3821 4 1 4 8 67.82 5.19 1.3819 0 4 0 2 69.13 1.05 1.3588 6 1 2 8 69.46 3.76 1.3532 2 1 5 8 70.85 1.96 1.3299 6 2 0 4 71.23 2.01 1.3238 3 3 3 8 73.20 1.20 1.2931 0 4 2 4 73.34 6.97 1.2909 5 2 3 8 73.64 1.85 1.2864 1 3 4 8 74.05 3.58 1.2802 1 4 2 8 75.60 1.11 1.2578 5 1 4 8 76.46 3.33 1.2458 2 2 5 8 76.92 1.05 1.2395 3 4 1 8 77.43 3.03 1.2326 4 0 5 4 77.96 2.97 1.2256 7 0 2 4 78.24 1.59 1.2219 0 0 6 2 78.30 1.91 1.2211 5 3 2 8 82.33 1.58 1.1712 6 3 0 4 82.77 5.19 1.1661 4 4 1 8 83.61 2.34 1.1565 6 3 1 8 83.82 2.28 1.1541 2 1 6 8 84.43 1.44 1.1473 0 3 5 4 84.71 2.20 1.1443 5 3 3 8 85.30 1.52 1.1379 8 0 0 2 86.19 1.64 1.1284 4 3 4 8 86.44 2.84 1.1257 4 2 5 8 86.61 1.81 1.1240 7 1 3 8 86.96 3.21 1.1204 7 2 2 8 87.17 3.39 1.1182 3 4 3 8 87.23 1.23 1.1176 0 2 6 4 87.73 1.49 1.1125 2 3 5 8 89.46 1.07 1.0954 1 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.