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 = 1.474 GPa _database_code_amcsd 0004115 CELL PARAMETERS: 7.7568 7.8727 5.5449 90.000 90.000 90.000 SPACE GROUP: Pnnm X-RAY WAVELENGTH: 1.541838 Cell Volume: 338.608 Density (g/cm3): 3.178 MAX. ABS. INTENSITY / VOLUME**2: 7.156779203 RIR: 0.733 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 16.04 99.44 5.5254 1 1 0 4 19.58 69.76 4.5333 0 1 1 4 19.68 100.00 4.5109 1 0 1 4 22.59 3.00 3.9363 0 2 0 2 22.72 53.29 3.9139 1 1 1 8 22.93 4.26 3.8784 2 0 0 2 25.37 32.13 3.5102 1 2 0 4 25.60 25.91 3.4791 2 1 0 4 32.29 23.01 2.7724 0 0 2 2 32.41 71.12 2.7627 2 2 0 4 36.13 5.49 2.4858 1 3 0 4 36.25 34.28 2.4780 1 1 2 8 36.33 4.28 2.4728 2 2 1 8 36.58 23.87 2.4565 3 1 0 4 37.93 11.37 2.3720 0 3 1 4 38.41 10.85 2.3434 3 0 1 4 39.74 19.30 2.2683 1 3 1 8 39.77 38.81 2.2667 0 2 2 4 40.15 27.53 2.2460 3 1 1 8 41.51 26.03 2.1757 1 2 2 8 41.65 26.95 2.1682 2 1 2 8 41.80 32.42 2.1611 3 2 0 4 46.12 6.26 1.9682 0 4 0 2 46.85 3.77 1.9392 4 0 0 2 48.34 4.90 1.8829 4 1 0 4 49.23 9.05 1.8508 1 3 2 8 49.49 1.01 1.8418 3 3 0 4 50.60 7.09 1.8039 1 4 1 8 50.74 7.74 1.7994 0 1 3 4 50.78 3.73 1.7980 1 0 3 4 51.24 8.70 1.7829 4 1 1 8 52.18 1.98 1.7528 1 1 3 8 52.34 9.57 1.7479 3 3 1 8 53.58 3.26 1.7105 2 3 2 8 54.87 2.61 1.6733 2 4 1 8 57.42 4.51 1.6049 0 4 2 4 58.04 17.80 1.5891 4 0 2 4 59.95 3.69 1.5431 1 5 0 4 60.24 1.13 1.5362 2 2 3 8 60.33 21.18 1.5341 3 3 2 8 60.86 6.58 1.5221 5 1 0 4 61.19 1.34 1.5147 0 5 1 4 61.35 2.46 1.5111 0 3 3 4 61.53 3.52 1.5071 3 4 1 8 61.69 2.77 1.5036 3 0 3 4 61.79 3.62 1.5013 4 3 1 8 62.13 1.77 1.4940 5 0 1 4 62.47 12.22 1.4866 1 5 1 8 62.63 6.92 1.4832 1 3 3 8 62.65 52.97 1.4829 2 4 2 8 62.93 5.62 1.4769 3 1 3 8 63.09 14.43 1.4735 4 2 2 8 63.37 12.05 1.4678 5 1 1 8 63.80 4.61 1.4589 2 5 0 4 67.58 23.41 1.3862 0 0 4 2 67.85 12.82 1.3814 4 4 0 4 69.75 1.29 1.3483 1 5 2 8 69.97 2.18 1.3446 1 1 4 8 70.59 3.17 1.3342 5 1 2 8 71.01 3.02 1.3275 1 4 3 8 71.53 1.12 1.3190 4 1 3 8 72.44 3.87 1.3046 3 3 3 8 72.85 1.06 1.2983 5 3 1 8 73.15 1.34 1.2937 1 6 0 4 73.21 1.92 1.2928 6 0 0 2 73.33 8.82 1.2911 2 5 2 8 73.44 2.01 1.2893 1 2 4 8 73.55 1.97 1.2878 2 1 4 8 74.05 10.86 1.2802 5 2 2 8 74.36 1.23 1.2757 6 1 0 4 76.67 4.21 1.2429 2 6 0 4 76.96 9.71 1.2390 2 2 4 8 77.15 11.65 1.2364 4 4 2 8 77.75 4.87 1.2283 6 2 0 4 79.10 1.77 1.2107 1 3 4 8 79.16 5.23 1.2100 3 5 2 8 79.37 4.31 1.2073 3 1 4 8 80.60 1.67 1.1919 4 3 3 8 80.76 2.19 1.1900 5 4 1 8 80.90 1.30 1.1883 5 0 3 4 81.09 2.91 1.1860 0 6 2 4 81.21 6.88 1.1845 1 5 3 8 82.01 4.72 1.1750 5 1 3 8 82.29 5.32 1.1717 6 0 2 4 82.43 1.35 1.1701 3 6 0 4 82.71 3.01 1.1668 3 2 4 8 86.25 1.08 1.1277 4 0 4 4 87.68 1.21 1.1130 1 7 0 4 89.21 1.26 1.0978 1 0 5 4 89.89 2.03 1.0913 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.