Coquimbite Yang Z, Giester G European Journal of Mineralogy 30 (2018) 849-858 Structure refinements of coquimbite and paracoquimbite from the Hongshan Cu-Au deposit, NW China Locality: Hongshan Cu-Au deposit, NW China _database_code_amcsd 0021043 CELL PARAMETERS: 10.9344 10.9344 17.0900 90.000 90.000 120.000 SPACE GROUP: P-31c X-RAY WAVELENGTH: 1.541838 Cell Volume: 1769.549 Density (g/cm3): 2.068 MAX. ABS. INTENSITY / VOLUME**2: 12.43893447 RIR: 1.958 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.34 39.66 9.4695 1 0 0 6 10.35 23.02 8.5450 0 0 2 2 10.68 100.00 8.2829 1 0 1 12 13.96 10.43 6.3440 1 0 2 12 16.21 36.31 5.4672 1 1 0 6 18.17 1.25 4.8814 1 0 3 12 18.74 15.46 4.7347 2 0 0 6 19.27 4.66 4.6053 2 -1 2 6 19.27 32.54 4.6053 1 1 2 6 19.45 7.02 4.5629 2 0 1 12 20.79 2.62 4.2725 0 0 4 2 22.83 2.07 3.8945 1 0 4 12 24.45 29.50 3.6412 2 0 3 12 24.88 5.14 3.5791 2 1 0 12 25.43 16.13 3.5031 3 -1 1 12 26.48 42.80 3.3665 1 1 4 6 26.48 9.07 3.3665 2 -1 4 6 27.01 1.84 3.3012 2 1 2 12 27.75 2.95 3.2150 1 0 5 12 28.13 1.63 3.1720 2 0 4 12 28.27 1.14 3.1565 3 0 0 6 28.76 12.07 3.1040 3 0 1 12 29.47 19.15 3.0306 3 -1 3 12 30.18 2.49 2.9609 3 0 2 12 32.30 12.86 2.7713 2 0 5 12 32.43 27.96 2.7610 3 0 3 12 32.64 4.42 2.7436 2 1 4 12 32.64 6.54 2.7436 3 -1 4 12 34.45 1.00 2.6036 4 -2 2 6 35.35 14.21 2.5388 3 0 4 12 35.54 3.95 2.5261 2 -1 6 6 35.77 1.33 2.5105 3 1 2 12 37.72 1.73 2.3851 3 1 3 12 37.72 3.19 2.3851 4 -1 3 12 38.01 1.24 2.3674 4 0 0 6 38.83 1.90 2.3189 3 0 5 12 39.12 9.32 2.3026 4 -2 4 6 41.57 1.07 2.1724 3 2 0 12 41.92 1.14 2.1551 3 2 1 12 43.45 2.87 2.0826 4 -1 5 12 43.81 3.15 2.0664 4 1 0 12 44.94 1.14 2.0169 3 -1 7 12 45.59 1.29 1.9897 2 -1 8 6 46.02 4.30 1.9723 4 -2 6 6 46.02 1.28 1.9723 2 2 6 6 46.65 1.50 1.9472 2 0 8 12 46.76 4.12 1.9426 4 1 3 12 48.97 8.27 1.8603 5 -1 4 12 48.97 3.20 1.8603 4 1 4 12 50.05 4.60 1.8224 3 3 0 6 51.26 2.66 1.7823 6 -3 2 6 51.26 1.76 1.7823 3 3 2 6 51.33 1.01 1.7798 4 2 1 12 51.67 4.27 1.7692 3 0 8 12 51.69 3.34 1.7684 4 1 5 12 52.88 1.71 1.7314 5 0 4 12 53.01 1.80 1.7274 5 -2 6 12 53.95 1.29 1.6996 4 0 7 12 54.52 7.44 1.6832 2 2 8 6 54.52 2.33 1.6832 4 -2 8 6 54.72 1.23 1.6774 3 -1 9 12 54.89 1.74 1.6726 4 1 6 12 55.05 1.10 1.6680 5 1 2 12 56.72 1.59 1.6230 3 2 7 12 58.48 1.50 1.5782 6 0 0 6 58.52 1.86 1.5773 5 -1 7 12 61.12 2.23 1.5163 5 2 0 12 61.72 1.25 1.5029 3 0 10 12 62.18 1.92 1.4930 7 -2 2 12 62.54 2.99 1.4852 5 -1 8 12 62.54 2.67 1.4852 4 1 8 12 62.76 1.84 1.4805 6 0 4 12 65.30 1.50 1.4290 7 -2 4 12 65.30 1.62 1.4290 5 2 4 12 67.56 1.64 1.3864 6 -3 8 6 68.03 1.30 1.3782 1 1 12 6 69.67 1.71 1.3496 4 4 2 6 71.66 1.16 1.3170 5 -1 10 12 72.63 1.78 1.3018 4 4 4 6 72.86 1.91 1.2982 3 0 12 12 79.67 1.29 1.2035 7 1 4 12 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.