Arzakite Minets Y V, Voroshilov Y V, Pan'ko V V Journal of Alloys and Compounds 367 (2004) 109-114 The structures of mercury chalcogenhalogenides Hg3X2Hal2 Note: synthetic, superstructure _database_code_amcsd 0012832 CELL PARAMETERS: 13.3200 13.3200 4.4650 90.000 90.000 90.000 SPACE GROUP: P42_12 X-RAY WAVELENGTH: 1.541838 Cell Volume: 792.191 Density (g/cm3): 7.119 MAX. ABS. INTENSITY / VOLUME**2: 147.5308319 RIR: 6.748 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.39 24.63 9.4187 1 1 0 4 18.84 1.75 4.7093 2 2 0 4 19.88 1.77 4.4650 0 0 1 2 21.09 28.95 4.2122 3 1 0 8 22.03 65.30 4.0346 1 1 1 8 24.00 4.65 3.7087 2 0 1 8 24.09 10.20 3.6943 3 2 0 8 24.92 1.40 3.5728 2 1 1 8 27.53 6.85 3.2402 2 2 1 8 28.43 24.17 3.1396 3 3 0 4 29.15 54.08 3.0639 3 1 1 8 31.43 1.57 2.8463 3 2 1 8 33.57 100.00 2.6694 4 0 1 8 33.64 20.59 2.6640 4 3 0 8 34.26 19.75 2.6173 4 1 1 8 34.33 19.54 2.6123 5 1 0 8 34.94 2.39 2.5682 3 3 1 8 36.32 5.50 2.4735 5 2 0 8 38.22 31.92 2.3547 4 4 0 4 39.45 4.08 2.2844 5 3 0 8 40.40 31.83 2.2325 0 0 2 2 40.64 4.00 2.2200 6 0 0 4 41.23 2.42 2.1898 6 1 0 8 41.57 1.14 2.1723 1 1 2 8 41.75 3.43 2.1637 5 2 1 8 42.94 3.08 2.1061 6 2 0 8 43.45 3.10 2.0828 4 4 1 8 43.50 1.02 2.0802 5 4 0 8 44.55 9.14 2.0337 5 3 1 8 45.64 1.29 1.9878 6 0 1 8 46.01 5.92 1.9726 3 1 2 8 46.17 1.33 1.9661 6 1 1 8 47.59 2.78 1.9107 3 2 2 8 47.75 4.06 1.9048 6 2 1 8 48.26 5.22 1.8856 5 4 1 8 48.32 2.10 1.8837 5 5 0 4 48.32 4.98 1.8837 7 1 0 8 49.84 2.11 1.8296 7 2 0 8 50.14 8.45 1.8194 3 3 2 8 50.29 3.00 1.8143 6 3 1 8 52.74 3.37 1.7356 5 5 1 8 52.74 2.11 1.7356 7 1 1 8 53.56 9.18 1.7111 4 3 2 8 53.70 6.24 1.7069 6 4 1 8 54.03 8.97 1.6972 5 1 2 8 54.18 14.45 1.6930 7 2 1 8 55.16 3.34 1.6650 8 0 0 4 55.44 2.62 1.6573 5 2 2 8 55.63 9.60 1.6521 8 1 0 8 56.51 4.62 1.6285 7 3 1 8 56.83 16.69 1.6201 4 4 2 8 57.74 2.16 1.5966 5 3 2 8 57.88 1.11 1.5932 6 5 1 8 58.65 2.30 1.5742 6 0 2 8 59.09 1.34 1.5633 6 1 2 8 59.23 1.59 1.5601 8 0 1 8 59.67 1.70 1.5495 7 4 1 8 60.43 1.97 1.5320 6 2 2 8 62.74 4.18 1.4809 6 6 1 8 63.17 6.70 1.4719 8 3 1 8 63.26 2.45 1.4701 1 1 3 8 63.60 3.23 1.4629 7 5 1 8 64.50 3.10 1.4448 7 6 0 8 64.75 1.52 1.4397 5 5 2 8 64.75 3.40 1.4397 7 1 2 8 66.02 1.38 1.4151 7 2 2 8 66.15 3.39 1.4127 8 4 1 8 66.65 3.45 1.4033 3 1 3 8 68.23 1.06 1.3746 9 2 1 8 69.13 8.63 1.3588 4 0 3 8 69.54 1.80 1.3518 4 1 3 8 69.87 1.25 1.3462 8 5 1 8 70.56 2.66 1.3347 8 0 2 8 70.97 7.84 1.3280 8 1 2 8 74.31 2.39 1.2764 10 0 1 8 75.90 3.03 1.2536 10 2 1 8 76.37 1.16 1.2470 5 3 3 8 76.69 1.59 1.2426 9 5 1 8 77.12 1.07 1.2367 10 4 0 8 78.93 2.91 1.2129 7 6 2 8 80.64 2.32 1.1914 11 2 0 8 83.39 1.27 1.1589 6 4 3 8 83.78 2.83 1.1546 7 2 3 8 84.09 1.23 1.1511 11 2 1 8 84.09 1.77 1.1511 10 5 1 8 84.90 1.51 1.1422 10 6 0 8 87.36 2.17 1.1163 0 0 4 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.