Cosalite Topa D, Makovicky E The Canadian Mineralogist 48 (2010) 1081-1107 The crystal chemistry of cosalite based on new electron-microprobe data and single-crystal determination of the structure Locality: Altenberg, Hobe Tauern Window, Lungau, Austria Note: Sample 3 _database_code_amcsd 0017818 CELL PARAMETERS: 23.6520 4.0539 19.0950 90.000 90.000 90.000 SPACE GROUP: Pnma X-RAY WAVELENGTH: 1.541838 Cell Volume: 1830.883 Density (g/cm3): 6.969 MAX. ABS. INTENSITY / VOLUME**2: 89.82853432 RIR: 4.197 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 5.95 6.40 14.8574 1 0 1 4 9.26 1.17 9.5475 0 0 2 2 14.41 5.37 6.1463 1 0 3 4 15.81 7.63 5.6048 2 0 3 4 20.06 6.46 4.4267 2 0 4 4 21.76 13.15 4.0835 3 0 4 4 22.42 6.13 3.9655 0 1 1 4 22.56 14.33 3.9420 6 0 0 2 23.04 21.77 3.8606 6 0 1 4 23.43 3.38 3.7967 5 0 3 4 23.66 1.35 3.7598 2 1 1 8 23.96 19.39 3.7144 4 0 4 4 24.15 14.01 3.6859 1 1 2 8 24.49 7.09 3.6342 2 0 5 4 25.02 34.56 3.5585 2 1 2 8 25.14 5.76 3.5426 3 1 1 8 25.92 94.44 3.4370 3 0 5 4 26.06 3.49 3.4193 0 1 3 4 26.34 27.44 3.3841 1 1 3 8 26.43 2.39 3.3728 3 1 2 8 26.53 11.27 3.3601 5 0 4 4 26.60 6.50 3.3513 6 0 3 4 26.66 11.62 3.3436 4 1 0 4 26.79 37.61 3.3272 7 0 1 4 27.15 54.21 3.2847 2 1 3 8 28.01 3.96 3.1853 7 0 2 4 28.04 1.19 3.1825 0 0 6 2 28.28 9.06 3.1556 4 1 2 8 29.06 3.66 3.0732 2 0 6 4 29.38 1.05 3.0396 6 0 4 4 29.39 26.81 3.0390 5 1 1 8 29.89 2.45 2.9897 2 1 4 8 30.07 5.67 2.9715 5 0 5 4 30.23 1.11 2.9565 8 0 0 2 30.29 11.31 2.9511 3 0 6 4 30.51 100.00 2.9297 5 1 2 8 30.60 1.74 2.9217 8 0 1 4 31.09 3.94 2.8770 3 1 4 8 31.66 8.00 2.8261 6 1 0 4 31.94 21.56 2.8024 4 0 6 4 32.01 8.29 2.7957 6 1 1 8 32.31 29.55 2.7711 5 1 3 8 32.43 2.83 2.7608 1 1 5 8 32.70 5.59 2.7386 4 1 4 8 33.06 18.85 2.7099 6 1 2 8 33.72 1.42 2.6581 2 0 7 4 33.95 1.40 2.6405 5 0 6 4 34.20 2.24 2.6216 3 1 5 8 34.67 1.43 2.5870 5 1 4 8 36.08 1.51 2.4894 1 1 6 8 36.27 4.21 2.4770 4 0 7 4 36.96 3.36 2.4319 6 1 4 8 37.42 5.56 2.4034 7 1 3 8 37.70 1.02 2.3859 3 1 6 8 39.13 1.22 2.3022 9 0 4 4 39.44 3.83 2.2845 3 0 8 4 39.52 6.54 2.2803 7 1 4 8 39.83 15.27 2.2632 0 1 7 4 40.02 4.52 2.2529 1 1 7 8 40.33 10.75 2.2364 8 1 3 8 40.59 12.61 2.2228 2 1 7 8 40.70 5.48 2.2171 10 0 3 4 40.77 1.19 2.2133 4 0 8 4 41.51 8.40 2.1753 3 1 7 8 42.05 1.19 2.1486 9 1 2 8 42.31 9.79 2.1362 8 1 4 8 42.42 2.50 2.1310 5 0 8 4 42.60 1.15 2.1225 7 0 7 4 42.66 18.41 2.1193 10 0 4 4 43.43 6.93 2.0837 9 1 3 8 44.20 10.18 2.0491 1 1 8 8 44.37 1.30 2.0416 5 1 7 8 44.47 1.44 2.0371 11 0 3 4 44.71 33.58 2.0269 0 2 0 2 44.72 12.13 2.0264 2 1 8 8 44.72 7.19 2.0264 9 0 6 4 45.07 1.62 2.0114 7 1 6 8 45.09 1.76 2.0108 10 0 5 4 45.30 18.46 2.0019 9 1 4 8 45.40 3.58 1.9977 10 1 2 8 45.58 5.86 1.9902 3 1 8 8 46.31 2.91 1.9605 11 0 4 4 46.70 8.48 1.9452 10 1 3 8 46.76 5.08 1.9427 4 1 8 8 46.94 2.11 1.9359 5 0 9 4 47.08 2.47 1.9303 12 0 2 4 47.62 1.52 1.9097 9 1 5 8 47.62 5.72 1.9095 0 0 10 2 47.79 2.97 1.9033 1 0 10 4 47.92 4.50 1.8983 10 0 6 4 48.08 1.36 1.8926 9 0 7 4 48.25 8.96 1.8862 5 1 8 8 48.41 1.05 1.8804 7 1 7 8 48.42 1.31 1.8798 0 1 9 4 48.89 3.41 1.8630 11 1 2 8 49.46 1.00 1.8429 2 2 4 8 50.25 2.25 1.8156 3 2 4 8 50.34 7.47 1.8126 9 1 6 8 50.38 2.27 1.8112 13 0 1 4 50.64 2.85 1.8026 6 2 0 4 50.81 9.99 1.7971 8 1 7 8 50.81 4.22 1.7968 7 0 9 4 50.88 4.11 1.7946 6 2 1 8 50.98 1.91 1.7914 4 1 9 8 51.11 2.38 1.7872 13 0 2 4 51.35 4.04 1.7793 4 2 4 8 51.56 3.99 1.7726 12 1 0 4 51.63 1.53 1.7702 2 2 5 8 51.80 10.27 1.7650 12 1 1 8 52.05 3.24 1.7569 7 1 8 8 52.37 1.31 1.7469 5 1 9 8 52.41 22.68 1.7459 3 2 5 8 52.51 2.09 1.7428 12 1 2 8 52.74 2.78 1.7356 5 2 4 8 52.78 1.58 1.7344 6 2 3 8 52.88 2.09 1.7313 1 0 11 4 52.89 9.80 1.7310 7 2 1 8 53.13 2.08 1.7237 8 0 9 4 53.31 4.92 1.7185 6 0 10 4 53.43 3.00 1.7149 9 1 7 8 53.59 1.11 1.7101 7 2 2 8 53.62 2.97 1.7093 2 1 10 8 53.93 1.46 1.7001 13 0 4 4 54.53 1.15 1.6829 14 0 1 4 54.83 1.54 1.6745 5 2 5 8 54.96 2.94 1.6708 3 2 6 8 55.21 4.36 1.6636 14 0 2 4 55.26 2.22 1.6624 7 0 10 4 55.99 6.70 1.6424 4 2 6 8 58.06 1.25 1.5887 6 0 11 4 58.76 1.59 1.5715 15 0 1 4 58.87 1.70 1.5687 4 2 7 8 61.12 1.63 1.5162 3 2 8 8 62.04 2.43 1.4960 10 2 3 8 63.32 1.23 1.4687 5 2 8 8 63.51 8.82 1.4648 10 2 4 8 63.95 3.16 1.4558 3 1 12 8 64.31 1.17 1.4484 9 0 11 4 64.39 1.21 1.4470 13 0 8 4 64.55 1.33 1.4437 14 1 5 8 64.76 1.24 1.4396 7 0 12 4 65.09 3.57 1.4331 9 2 6 8 66.01 2.73 1.4152 11 1 9 8 66.10 3.11 1.4135 5 1 12 8 66.33 1.59 1.4092 11 2 4 8 66.58 2.36 1.4045 15 1 4 8 66.83 1.10 1.4000 5 2 9 8 66.94 1.28 1.3978 12 2 2 8 67.37 3.19 1.3899 0 2 10 4 67.51 1.68 1.3875 1 2 10 8 67.56 4.33 1.3866 6 1 12 8 67.61 2.55 1.3856 10 2 6 8 67.86 1.16 1.3811 13 0 9 4 67.87 1.14 1.3810 0 1 13 4 68.00 2.24 1.3786 1 1 13 8 68.39 1.26 1.3717 2 1 13 8 68.40 4.37 1.3715 15 1 5 8 69.04 1.55 1.3603 12 1 9 8 69.11 1.17 1.3592 17 0 3 4 69.61 1.40 1.3506 13 2 1 8 69.84 1.09 1.3467 11 1 10 8 69.97 2.49 1.3446 7 2 9 8 70.21 1.42 1.3405 13 2 2 8 70.60 6.63 1.3342 15 1 6 8 70.88 1.21 1.3295 2 3 2 8 71.48 1.07 1.3198 1 3 3 8 71.69 1.33 1.3164 1 2 11 8 71.87 2.26 1.3137 2 3 3 8 71.90 1.35 1.3131 8 2 9 8 72.05 3.16 1.3108 6 2 10 8 72.98 1.19 1.2963 5 3 1 8 73.35 1.80 1.2908 1 1 14 8 73.57 4.71 1.2875 5 3 2 8 73.67 2.90 1.2859 14 2 2 8 73.70 1.51 1.2854 7 2 10 8 74.54 1.61 1.2731 5 3 3 8 74.55 2.03 1.2729 16 1 6 8 74.96 1.08 1.2670 6 3 2 8 75.69 1.13 1.2565 14 1 9 8 76.07 1.25 1.2512 8 1 13 8 76.16 2.28 1.2500 18 1 0 4 76.55 1.44 1.2445 4 0 15 4 76.74 1.13 1.2419 15 2 1 8 76.86 2.61 1.2402 12 1 11 8 78.40 1.10 1.2198 11 1 12 8 79.09 1.28 1.2109 0 3 7 4 79.58 1.10 1.2046 2 3 7 8 79.97 1.74 1.1997 13 1 11 8 80.95 1.90 1.1877 19 1 1 8 82.05 1.02 1.1745 1 3 8 8 82.12 1.02 1.1737 7 2 12 8 82.42 1.26 1.1702 2 3 8 8 82.83 1.92 1.1654 9 3 4 8 84.98 1.01 1.1414 13 2 9 8 84.99 1.07 1.1412 5 3 8 8 86.14 1.03 1.1289 17 2 3 8 86.94 1.35 1.1205 8 3 7 8 87.72 1.42 1.1126 12 3 1 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.