Turquoise Kolitsch U, Giester G Mineralogical Magazine 64 (2000) 905-913 The crystal structure of faustite and its copper analogue turquoise Locality: Iron Monarch iron ore deposit, South Australia _database_code_amcsd 0014545 CELL PARAMETERS: 7.4100 7.6330 9.9040 68.420 69.650 65.050 SPACE GROUP: P-1 X-RAY WAVELENGTH: 1.541838 Cell Volume: 459.808 Density (g/cm3): 2.915 MAX. ABS. INTENSITY / VOLUME**2: 7.460325098 RIR: 0.833 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.86 12.50 8.9662 0 0 1 2 13.25 10.87 6.6825 0 1 0 2 13.54 5.56 6.5408 1 0 0 2 14.32 5.91 6.1839 0 1 1 2 14.37 45.62 6.1653 1 1 1 2 14.83 19.87 5.9737 1 0 1 2 15.43 6.50 5.7409 1 1 0 2 18.51 3.44 4.7938 0 -1 1 2 18.53 22.66 4.7889 -1 0 1 2 19.27 5.02 4.6052 1 1 2 2 21.31 3.35 4.1685 1 0 2 2 21.99 2.17 4.0425 -1 1 0 2 24.00 11.86 3.7078 -1 1 1 2 24.08 2.75 3.6957 2 1 1 2 24.30 100.00 3.6631 1 -1 1 2 25.43 2.93 3.5019 1 2 2 2 25.52 2.32 3.4901 1 2 0 2 25.92 2.37 3.4371 0 2 1 2 25.98 42.08 3.4292 2 1 0 2 26.17 13.24 3.4047 2 1 2 2 26.55 2.06 3.3575 -1 0 2 2 26.67 13.24 3.3424 0 -1 2 2 27.18 13.12 3.2814 1 1 3 2 27.27 28.34 3.2704 2 0 0 2 28.34 2.33 3.1487 2 2 1 2 28.88 2.12 3.0919 0 2 2 2 28.96 8.41 3.0826 2 2 2 2 29.39 5.31 3.0387 0 1 3 2 29.90 1.12 2.9887 0 0 3 2 29.90 1.60 2.9887 1 0 3 2 30.00 1.53 2.9784 1 -1 2 2 30.04 2.99 2.9743 -1 -1 2 2 30.79 68.36 2.9039 1 2 3 2 30.90 1.40 2.8943 0 -2 1 2 30.94 29.15 2.8905 -1 -2 1 2 31.16 4.75 2.8704 2 2 0 2 31.18 5.14 2.8687 -2 0 1 2 31.53 1.84 2.8375 2 1 3 2 32.84 2.78 2.7269 2 2 3 2 34.00 1.24 2.6371 -1 2 0 2 34.34 1.41 2.6112 -1 2 1 2 35.02 1.19 2.5626 2 -1 1 2 35.60 6.53 2.5218 1 3 1 2 35.77 10.10 2.5103 -1 0 3 2 35.77 1.37 2.5102 2 0 3 2 35.97 1.08 2.4970 0 -1 3 2 36.32 3.06 2.4733 1 1 4 2 36.59 2.52 2.4558 1 -2 1 2 36.62 1.34 2.4538 -2 1 1 2 36.95 3.41 2.4326 2 3 2 2 37.12 2.53 2.4220 -1 1 3 2 37.31 1.61 2.4103 3 1 2 2 37.52 4.80 2.3969 0 -2 2 2 37.56 5.63 2.3945 -2 0 2 2 38.48 7.62 2.3395 2 -1 2 2 38.91 6.22 2.3144 0 1 4 2 38.95 6.07 2.3124 2 1 4 2 39.12 11.80 2.3026 2 2 4 2 39.17 3.48 2.2997 1 3 3 2 39.45 4.92 2.2839 -1 -1 3 2 40.50 3.64 2.2275 0 3 0 2 40.57 2.47 2.2235 3 1 3 2 40.60 9.98 2.2223 2 3 0 2 41.41 5.22 2.1806 -2 1 2 2 41.41 1.72 2.1803 3 0 0 2 41.72 1.47 2.1648 3 0 2 2 42.80 1.24 2.1129 3 3 2 2 42.89 12.16 2.1086 -1 -3 1 2 43.49 1.62 2.0807 -3 -1 1 2 43.89 16.21 2.0629 2 3 4 2 44.06 4.20 2.0551 3 3 3 2 44.09 1.94 2.0541 -2 -2 2 2 44.84 4.43 2.0212 -2 2 0 2 44.98 27.95 2.0155 -3 0 1 2 46.35 1.23 1.9590 -3 -2 1 2 46.98 1.15 1.9342 1 2 5 2 47.18 2.04 1.9262 -1 -2 3 2 47.86 8.87 1.9008 3 -1 1 2 47.92 2.91 1.8982 2 4 2 2 48.06 1.74 1.8931 -3 1 0 2 49.05 2.69 1.8573 1 4 1 2 49.32 6.23 1.8479 4 2 2 2 49.54 11.80 1.8399 1 0 5 2 49.78 6.42 1.8316 2 -2 2 2 50.25 14.42 1.8155 0 -3 2 2 50.34 1.75 1.8126 1 4 3 2 50.35 1.20 1.8121 -1 2 4 2 50.50 4.37 1.8073 -3 1 1 2 51.25 6.43 1.7826 3 2 5 2 51.55 4.23 1.7729 2 -1 4 2 52.97 1.02 1.7286 4 1 0 2 53.04 1.78 1.7265 -2 -3 2 2 53.17 4.17 1.7227 3 3 5 2 53.31 2.21 1.7185 0 4 2 2 53.44 1.81 1.7146 4 2 0 2 54.94 1.77 1.6712 0 -2 4 2 55.22 1.47 1.6634 4 0 2 2 56.26 3.94 1.6352 4 0 0 2 56.33 4.65 1.6331 -1 -4 1 2 56.47 2.44 1.6295 1 -1 5 2 57.36 2.87 1.6062 -2 3 0 2 57.59 3.16 1.6004 4 3 0 2 57.93 2.45 1.5919 -3 -1 3 2 58.28 1.57 1.5833 3 -2 1 2 58.40 6.69 1.5801 2 3 6 2 58.91 6.23 1.5677 -1 2 5 2 59.67 1.17 1.5497 -2 3 2 2 59.80 4.85 1.5465 0 1 6 2 59.82 1.50 1.5460 0 4 4 2 60.02 1.28 1.5413 4 4 4 2 60.22 1.04 1.5368 1 3 6 2 60.24 1.11 1.5363 -1 -1 5 2 60.64 2.61 1.5270 -1 4 1 2 61.25 1.23 1.5133 -2 2 4 2 61.35 1.52 1.5111 1 -3 3 2 61.63 8.10 1.5049 -3 -2 3 2 62.16 2.84 1.4934 4 0 4 2 62.32 10.94 1.4900 3 5 3 2 62.90 4.37 1.4775 -4 1 0 2 62.92 3.59 1.4772 2 -3 2 2 63.21 1.05 1.4710 2 5 4 2 63.25 2.43 1.4702 5 2 3 2 63.27 2.00 1.4698 4 -1 2 2 63.36 1.10 1.4679 -4 -1 2 2 63.61 1.92 1.4628 1 5 1 2 64.14 4.53 1.4520 2 4 6 2 64.25 1.30 1.4497 5 2 1 2 64.98 2.44 1.4352 4 4 0 2 65.02 1.15 1.4343 -4 0 2 2 65.09 1.07 1.4330 -4 -2 2 2 65.39 1.64 1.4273 -1 3 5 2 65.55 4.44 1.4241 0 3 6 2 65.65 2.50 1.4222 5 1 1 2 65.69 1.51 1.4214 4 3 6 2 65.97 2.00 1.4161 5 1 3 2 66.42 3.63 1.4075 0 -3 4 2 67.39 1.15 1.3895 -1 0 6 2 67.92 1.32 1.3801 5 4 3 2 68.41 2.15 1.3714 3 2 7 2 69.36 1.59 1.3549 -2 3 4 2 69.67 1.98 1.3496 5 2 5 2 69.97 4.57 1.3446 2 -1 6 2 70.07 3.39 1.3428 -4 -3 2 2 70.45 1.33 1.3365 0 5 0 2 70.50 1.11 1.3357 -3 3 1 2 70.54 2.32 1.3350 1 5 5 2 70.89 2.01 1.3294 3 -3 1 2 71.04 1.15 1.3268 -2 -3 4 2 71.17 1.03 1.3248 -1 -5 1 2 71.56 1.50 1.3185 -2 4 0 2 72.38 1.45 1.3056 -2 4 2 2 74.99 3.41 1.2665 5 5 3 2 75.38 3.65 1.2609 2 6 2 2 75.59 1.65 1.2579 -5 -3 1 2 75.79 5.86 1.2551 -2 0 6 2 75.96 1.89 1.2528 -1 5 1 2 77.80 1.28 1.2277 -3 1 5 2 78.47 1.95 1.2188 6 3 4 2 78.49 1.26 1.2186 3 -2 5 2 78.49 1.43 1.2186 1 -3 5 2 78.73 2.70 1.2154 1 -1 7 2 79.61 1.27 1.2043 1 6 1 2 80.52 2.05 1.1929 6 4 4 2 82.16 1.07 1.1732 -5 1 1 2 82.74 1.23 1.1665 5 2 7 2 84.12 1.61 1.1508 -1 -1 7 2 85.21 1.05 1.1389 4 -1 6 2 86.97 2.74 1.1203 0 6 4 2 87.03 1.67 1.1196 6 0 2 2 87.20 1.38 1.1179 4 -3 2 2 88.88 1.24 1.1011 4 5 8 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.