Andalusite Burt J B, Ross N L, Angel R J, Koch M American Mineralogist 91 (2006) 319-326 Equations of state and structures of andalusite to 9.8 GPa and sillimanite to 8.5 GPa Locality: Minas Gerais, Brazil Sample: P = .0001 GPa _database_code_amcsd 0004114 CELL PARAMETERS: 7.7930 7.8973 5.5558 90.000 90.000 90.000 SPACE GROUP: Pnnm X-RAY WAVELENGTH: 1.541838 Cell Volume: 341.928 Density (g/cm3): 3.147 MAX. ABS. INTENSITY / VOLUME**2: 7.124169821 RIR: 0.737 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 15.98 100.00 5.5470 1 1 0 4 19.54 69.32 4.5440 0 1 1 4 19.62 99.54 4.5239 1 0 1 4 22.52 3.12 3.9487 0 2 0 2 22.65 53.50 3.9254 1 1 1 8 22.82 4.14 3.8965 2 0 0 2 25.29 31.03 3.5223 1 2 0 4 25.49 24.98 3.4943 2 1 0 4 32.22 22.75 2.7779 0 0 2 2 32.28 72.22 2.7735 2 2 0 4 36.01 5.22 2.4940 1 3 0 4 36.16 33.73 2.4839 1 1 2 8 36.20 4.35 2.4815 2 2 1 8 36.41 23.35 2.4676 3 1 0 4 37.82 11.41 2.3789 0 3 1 4 38.25 10.54 2.3532 3 0 1 4 39.61 18.75 2.2753 1 3 1 8 39.67 36.73 2.2720 0 2 2 4 39.98 27.17 2.2552 3 1 1 8 41.40 25.98 2.1812 1 2 2 8 41.53 27.03 2.1745 2 1 2 8 41.62 31.66 2.1702 3 2 0 4 45.97 6.18 1.9743 0 4 0 2 46.62 3.64 1.9483 4 0 0 2 47.51 1.13 1.9139 1 4 0 4 48.10 5.02 1.8915 4 1 0 4 49.09 8.68 1.8558 1 3 2 8 49.28 1.07 1.8490 3 3 0 4 50.43 6.92 1.8095 1 4 1 8 50.63 7.79 1.8030 0 1 3 4 50.66 3.61 1.8018 1 0 3 4 51.00 8.70 1.7906 4 1 1 8 52.06 1.85 1.7566 1 1 3 8 52.13 9.45 1.7544 3 3 1 8 53.41 3.21 1.7156 2 3 2 8 54.67 2.71 1.6788 2 4 1 8 57.25 4.45 1.6093 0 4 2 4 57.80 17.25 1.5951 4 0 2 4 59.74 3.49 1.5480 1 5 0 4 60.07 1.08 1.5402 2 2 3 8 60.11 21.05 1.5392 3 3 2 8 60.55 6.53 1.5291 5 1 0 4 60.99 1.20 1.5193 0 5 1 4 61.19 2.53 1.5147 0 3 3 4 61.29 3.41 1.5125 3 4 1 8 61.49 2.62 1.5080 3 0 3 4 61.52 3.48 1.5073 4 3 1 8 61.82 1.69 1.5007 5 0 1 4 62.26 11.81 1.4912 1 5 1 8 62.44 51.25 1.4874 2 4 2 8 62.46 6.67 1.4868 1 3 3 8 62.73 5.31 1.4812 3 1 3 8 62.83 13.83 1.4790 4 2 2 8 63.06 11.73 1.4743 5 1 1 8 63.56 4.42 1.4638 2 5 0 4 67.43 22.61 1.3890 0 0 4 2 67.55 12.46 1.3868 4 4 0 4 69.52 1.29 1.3522 1 5 2 8 69.80 2.09 1.3474 1 1 4 8 70.27 3.11 1.3396 5 1 2 8 70.80 2.91 1.3309 1 4 3 8 71.26 1.08 1.3233 4 1 3 8 72.20 3.78 1.3085 3 3 3 8 72.50 1.03 1.3037 5 3 1 8 72.82 1.84 1.2988 6 0 0 2 72.88 1.36 1.2978 1 6 0 4 73.07 8.73 1.2950 2 5 2 8 73.26 1.87 1.2921 1 2 4 8 73.35 1.86 1.2907 2 1 4 8 73.71 10.62 1.2853 5 2 2 8 73.96 1.23 1.2816 6 1 0 4 76.37 3.77 1.2470 2 6 0 4 76.74 9.41 1.2419 2 2 4 8 76.83 11.13 1.2407 4 4 2 8 77.34 4.65 1.2338 6 2 0 4 78.85 4.96 1.2139 3 5 2 8 78.89 1.64 1.2135 1 3 4 8 79.13 4.07 1.2104 3 1 4 8 80.28 1.55 1.1958 4 3 3 8 80.37 2.04 1.1947 5 4 1 8 80.55 1.27 1.1925 5 0 3 4 80.80 2.97 1.1895 0 6 2 4 80.94 6.68 1.1877 1 5 3 8 81.66 4.47 1.1791 5 1 3 8 81.87 5.17 1.1766 6 0 2 4 82.08 1.36 1.1741 3 6 0 4 82.44 2.84 1.1699 3 2 4 8 87.33 1.17 1.1166 1 7 0 4 88.98 1.21 1.1000 1 0 5 4 89.54 1.91 1.0947 1 7 1 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.