Mn2Al4Si5O18 Knorr K, Meschke M, Winkler B Physics and Chemistry of Minerals 26 (1999) 521-529 Structural and magnetic properties of Co2Al4Si5O18 and Mn2Al4Si5O18 cordierite _database_code_amcsd 0008230 CELL PARAMETERS: 17.1280 9.7640 9.1470 90.000 90.000 90.000 SPACE GROUP: Cccm X-RAY WAVELENGTH: 1.541838 Cell Volume: 1529.724 Density (g/cm3): 2.806 MAX. ABS. INTENSITY / VOLUME**2: 16.84297489 RIR: 1.955 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.33 55.71 8.5640 2 0 0 2 10.43 100.00 8.4825 1 1 0 4 18.00 1.54 4.9286 3 1 0 4 18.17 1.72 4.8820 0 2 0 2 19.41 1.05 4.5735 0 0 2 2 20.95 1.08 4.2413 2 2 0 4 22.03 14.03 4.0343 2 0 2 4 22.08 46.00 4.0256 1 1 2 8 26.59 47.21 3.3525 3 1 2 8 26.71 29.99 3.3377 0 2 2 4 27.90 1.03 3.1975 1 3 0 4 28.56 6.76 3.1258 4 0 2 4 28.71 21.46 3.1099 2 2 2 8 29.30 17.00 3.0477 5 1 1 8 29.41 17.01 3.0366 4 2 1 8 29.60 20.33 3.0184 1 3 1 8 31.34 2.88 2.8547 6 0 0 2 31.64 3.30 2.8275 3 3 0 4 33.96 9.99 2.6397 5 1 2 8 34.06 9.47 2.6325 4 2 2 8 34.22 5.71 2.6205 1 3 2 8 36.46 7.17 2.4643 6 2 0 4 36.82 4.13 2.4410 0 4 0 2 39.40 9.75 2.2868 0 0 4 2 40.90 1.33 2.2066 1 3 3 8 41.63 7.57 2.1694 6 2 2 8 41.95 2.29 2.1535 0 4 2 4 42.93 3.60 2.1067 7 1 2 8 43.14 3.99 2.0969 5 3 2 8 43.32 7.03 2.0885 2 4 2 8 44.94 1.30 2.0171 4 0 4 4 45.04 2.47 2.0128 2 2 4 8 46.30 1.45 1.9607 8 2 0 4 46.43 2.32 1.9558 7 3 0 4 46.82 1.58 1.9402 1 5 0 4 48.61 2.18 1.8729 7 1 3 8 48.75 2.26 1.8680 9 1 0 4 48.80 4.55 1.8660 5 3 3 8 48.85 1.41 1.8643 4 2 4 8 48.97 1.89 1.8601 2 4 3 8 48.97 2.39 1.8600 1 3 4 8 49.11 2.61 1.8552 6 4 0 4 49.32 3.68 1.8477 3 5 0 4 50.17 1.22 1.8182 6 4 1 8 51.18 3.63 1.7847 6 0 4 4 51.39 5.69 1.7780 3 3 4 8 52.95 2.69 1.7293 9 1 2 8 53.29 2.84 1.7192 6 4 2 8 53.49 1.47 1.7132 3 5 2 8 53.50 2.77 1.7128 10 0 0 2 54.05 5.05 1.6965 5 5 0 4 54.76 13.38 1.6762 6 2 4 8 55.03 8.21 1.6688 0 4 4 4 55.83 1.69 1.6468 7 1 4 8 57.89 1.28 1.5928 9 1 3 8 58.21 2.73 1.5849 6 4 3 8 58.40 1.29 1.5802 3 5 3 8 59.82 2.02 1.5461 9 3 2 8 60.37 2.23 1.5332 0 6 2 4 62.39 2.49 1.4885 8 2 4 8 62.49 1.61 1.4863 7 3 4 8 62.81 2.36 1.4795 1 5 4 8 63.87 1.72 1.4575 11 1 2 8 63.92 2.82 1.4564 3 1 6 8 63.98 1.75 1.4552 0 2 6 4 64.35 2.19 1.4478 7 5 2 8 64.56 1.81 1.4434 4 6 2 8 66.09 1.50 1.4138 6 6 0 4 67.99 1.19 1.3788 5 1 6 8 68.05 1.25 1.3778 4 2 6 8 68.14 1.06 1.3761 1 3 6 8 68.49 1.66 1.3700 12 2 0 4 68.89 1.01 1.3629 9 5 0 4 68.92 3.82 1.3625 12 0 2 4 69.35 1.07 1.3550 3 7 0 4 69.61 6.23 1.3507 6 6 2 8 71.48 1.12 1.3198 10 2 4 8 71.71 1.03 1.3162 8 4 4 8 72.97 2.11 1.2965 6 2 6 8 74.16 1.01 1.2786 2 4 6 8 74.35 1.30 1.2758 11 3 3 8 79.04 1.43 1.2115 5 1 7 8 80.33 2.18 1.1953 10 4 4 8 80.78 3.50 1.1897 12 4 2 8 81.99 2.44 1.1752 12 2 4 8 82.37 1.64 1.1708 9 5 4 8 82.80 1.74 1.1657 3 7 4 8 84.79 2.36 1.1434 0 0 8 2 87.72 1.05 1.1126 0 6 6 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.