Paracoquimbite 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 0021042 CELL PARAMETERS: 10.9631 10.9631 51.4730 90.000 90.000 120.000 SPACE GROUP: R-3 X-RAY WAVELENGTH: 1.541838 Cell Volume: 5357.682 Density (g/cm3): 2.083 MAX. ABS. INTENSITY / VOLUME**2: 12.53065390 RIR: 1.958 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.93 100.00 8.9075 0 1 2 6 10.31 26.86 8.5788 0 0 6 2 11.58 45.01 7.6399 1 0 4 6 15.24 2.00 5.8136 1 0 7 6 16.17 41.95 5.4816 1 1 0 6 18.77 19.68 4.7271 0 2 1 6 19.21 38.17 4.6191 1 1 6 6 19.21 6.33 4.6191 2 -1 6 6 20.60 1.41 4.3109 2 0 5 6 20.71 2.00 4.2894 0 0 12 2 21.17 1.92 4.1973 0 1 11 6 22.29 1.06 3.9883 0 2 7 6 23.29 6.20 3.8200 2 0 8 6 24.36 1.93 3.6544 1 0 13 6 24.87 5.32 3.5798 2 1 1 6 24.87 5.15 3.5798 3 -1 1 6 25.05 2.06 3.5541 -1 3 2 6 25.53 9.59 3.4896 0 2 10 6 25.77 1.20 3.4566 2 1 4 6 25.77 6.69 3.4566 3 -1 4 6 25.99 1.09 3.4285 0 1 14 6 26.30 2.46 3.3885 -1 3 5 6 26.38 45.40 3.3781 1 1 12 6 26.38 11.38 3.3781 2 -1 12 6 26.75 9.69 3.3325 2 0 11 6 28.20 1.76 3.1648 3 0 0 6 28.48 14.19 3.1340 -1 3 8 6 28.68 5.54 3.1123 0 3 3 6 28.68 5.70 3.1123 3 0 3 6 29.37 5.98 3.0406 0 2 13 6 30.10 2.11 2.9692 0 3 6 6 30.10 1.52 2.9692 3 0 6 6 30.36 8.99 2.9437 3 -1 10 6 30.76 4.10 2.9068 2 0 14 6 32.33 14.48 2.7691 3 0 9 6 32.33 13.98 2.7691 0 3 9 6 32.67 1.18 2.7408 2 2 0 6 33.65 2.47 2.6631 0 2 16 6 33.71 1.97 2.6590 2 1 13 6 34.35 1.49 2.6108 4 -2 6 6 34.94 2.54 2.5681 -1 3 14 6 35.15 1.21 2.5528 2 0 17 6 35.24 8.04 2.5466 0 3 12 6 35.24 8.04 2.5466 3 0 12 6 35.40 5.07 2.5354 2 -1 18 6 36.88 1.55 2.4371 4 -1 8 6 36.88 1.19 2.4371 3 1 8 6 37.95 1.29 2.3711 4 0 1 6 38.40 1.90 2.3443 -1 4 10 6 38.70 1.18 2.3264 0 3 15 6 39.00 10.58 2.3096 4 -2 12 6 41.61 1.06 2.1704 2 3 2 6 42.21 1.24 2.1408 4 -1 14 6 43.69 2.13 2.0718 1 4 0 6 43.69 1.96 2.0718 4 1 0 6 45.41 1.57 1.9973 2 -1 24 6 45.86 4.94 1.9787 4 -2 18 6 45.86 1.69 1.9787 2 2 18 6 46.63 2.07 1.9480 1 4 9 6 46.63 1.96 1.9480 4 1 9 6 47.90 1.30 1.8989 -1 3 23 6 48.82 1.76 1.8656 1 4 12 6 48.82 4.38 1.8656 -1 5 12 6 48.82 1.93 1.8656 4 1 12 6 48.82 4.52 1.8656 5 -1 12 6 49.91 5.13 1.8272 3 3 0 6 51.11 3.12 1.7871 6 -3 6 6 51.11 2.12 1.7871 3 3 6 6 51.47 2.32 1.7754 0 3 24 6 51.47 2.98 1.7754 3 0 24 6 51.53 1.57 1.7736 1 4 15 6 51.53 1.62 1.7736 4 1 15 6 54.31 2.32 1.6890 4 -2 24 6 54.31 7.54 1.6890 2 2 24 6 54.59 1.10 1.6810 6 -3 12 6 54.71 1.17 1.6778 1 4 18 6 58.31 1.72 1.5824 6 0 0 6 58.32 1.04 1.5823 5 -1 21 6 60.94 1.17 1.5203 2 5 0 6 60.94 1.34 1.5203 5 2 0 6 61.99 1.16 1.4970 -2 7 6 6 62.31 1.67 1.4901 -1 5 24 6 62.31 1.51 1.4901 1 4 24 6 62.31 1.29 1.4901 4 1 24 6 62.31 1.63 1.4901 5 -1 24 6 62.57 1.01 1.4846 0 6 12 6 62.57 1.01 1.4846 6 0 12 6 67.32 1.62 1.3909 6 -3 24 6 67.73 1.34 1.3835 1 1 36 6 69.46 1.82 1.3532 4 4 6 6 72.39 1.76 1.3054 4 4 12 6 72.55 1.18 1.3030 0 3 36 6 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.