Tincalconite Giacovazzo C, Menchetti S, Scordari F American Mineralogist 58 (1973) 523-530 The crystal structure of tincalconite _database_code_amcsd 0000321 CELL PARAMETERS: 11.0900 11.0900 21.0700 90.000 90.000 120.000 SPACE GROUP: R32 X-RAY WAVELENGTH: 1.541838 Cell Volume: 2244.183 Density (g/cm3): 1.956 MAX. ABS. INTENSITY / VOLUME**2: 3.797093409 RIR: 0.632 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.12 10.90 8.7391 1 0 1 6 12.47 1.31 7.0975 0 1 2 6 12.60 19.26 7.0233 0 0 3 2 15.98 12.73 5.5450 1 1 0 3 18.95 41.18 4.6820 0 2 1 6 19.22 2.95 4.6185 1 0 4 6 20.32 58.72 4.3696 2 0 2 6 20.41 36.77 4.3521 1 1 3 6 23.05 6.48 3.8589 0 1 5 6 24.89 9.08 3.5774 2 1 1 6 25.09 6.41 3.5488 0 2 4 6 25.96 64.60 3.4320 1 2 2 6 28.17 6.04 3.1674 2 0 5 6 29.89 29.80 2.9890 2 1 4 6 30.12 14.55 2.9668 1 1 6 6 30.69 7.25 2.9130 0 3 3 6 30.69 92.75 2.9130 3 0 3 6 31.14 9.68 2.8722 1 0 7 6 32.29 1.23 2.7725 2 2 0 3 32.56 20.39 2.7503 1 2 5 6 34.74 34.38 2.5825 3 1 2 6 34.79 4.27 2.5788 2 2 3 6 35.19 1.86 2.5504 0 2 7 6 35.34 14.81 2.5400 0 1 8 6 37.85 20.67 2.3771 1 3 4 6 38.03 4.76 2.3658 0 3 6 6 38.03 3.56 2.3658 3 0 6 6 38.87 11.48 2.3171 2 1 7 6 39.00 1.72 2.3092 2 0 8 6 40.04 26.55 2.2516 3 1 5 6 41.19 1.77 2.1914 3 2 1 6 41.32 14.96 2.1848 4 0 4 6 41.50 18.85 2.1760 2 2 6 6 41.89 4.73 2.1568 1 1 9 6 42.40 5.61 2.1318 1 2 8 6 43.16 6.51 2.0958 4 1 0 6 44.58 9.76 2.0327 3 2 4 6 45.15 5.43 2.0083 4 1 3 6 45.47 32.77 1.9948 1 3 7 6 46.51 8.68 1.9526 2 3 5 6 47.10 18.33 1.9294 0 2 10 6 48.15 3.78 1.8897 0 3 9 6 48.15 4.17 1.8897 3 0 9 6 48.15 2.02 1.8897 5 0 2 6 48.61 1.94 1.8729 3 1 8 6 49.30 15.90 1.8483 3 3 0 3 50.05 2.27 1.8223 2 1 10 6 50.47 1.09 1.8083 2 4 1 6 50.73 8.62 1.7997 1 4 6 6 50.73 2.49 1.7997 4 1 6 6 51.06 3.87 1.7887 2 2 9 6 51.06 16.89 1.7887 4 2 2 6 51.10 23.81 1.7875 3 3 3 6 51.50 4.74 1.7744 0 4 8 6 52.09 4.55 1.7558 0 0 12 2 52.34 5.30 1.7478 5 0 5 6 54.28 1.08 1.6900 2 3 8 6 54.84 1.89 1.6739 1 1 12 6 55.62 5.56 1.6525 1 3 10 6 56.10 5.62 1.6393 5 1 4 6 56.24 1.64 1.6356 3 3 6 6 56.86 1.98 1.6192 0 5 7 6 57.58 1.38 1.6007 6 0 0 6 59.17 4.98 1.5615 1 4 9 6 59.17 2.62 1.5615 3 4 2 6 59.47 2.21 1.5543 2 4 7 6 60.10 5.86 1.5395 3 0 12 6 62.01 1.39 1.4966 5 1 7 6 62.11 1.42 1.4945 4 2 8 6 62.46 2.05 1.4869 0 1 14 6 62.62 1.11 1.4834 2 2 12 6 62.79 1.43 1.4800 2 1 13 6 62.85 2.21 1.4785 3 4 5 6 63.91 5.60 1.4565 0 6 6 6 64.20 1.88 1.4507 3 3 9 6 64.20 1.45 1.4507 6 1 2 6 66.23 3.54 1.4111 1 6 4 6 66.36 1.14 1.4087 5 2 6 6 67.67 1.24 1.3846 1 3 13 6 68.54 2.74 1.3691 7 0 1 6 69.03 1.18 1.3605 0 7 2 6 69.28 1.35 1.3563 5 0 11 6 69.89 1.02 1.3459 1 4 12 6 70.56 2.96 1.3347 5 1 10 6 70.99 1.42 1.3277 7 0 4 6 71.38 1.26 1.3213 2 6 2 6 71.63 1.14 1.3175 4 2 11 6 73.64 1.55 1.2863 0 3 15 6 74.60 1.29 1.2721 7 1 0 6 76.03 1.16 1.2517 7 1 3 6 77.03 1.07 1.2379 2 1 16 6 81.34 1.12 1.1829 6 0 12 6 81.34 1.19 1.1829 0 6 12 6 81.49 1.28 1.1812 5 1 13 6 82.71 2.57 1.1668 4 1 15 6 83.43 1.34 1.1585 4 2 14 6 83.58 2.92 1.1569 5 2 12 6 85.66 1.39 1.1340 1 5 14 6 86.00 1.39 1.1304 3 2 16 6 86.63 2.06 1.1237 3 1 17 6 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.