Sekaninaite Hochella M F, Brown G E, Ross F K, Gibbs G V American Mineralogist 64 (1979) 337-351 High-temperature crystal chemistry of hydrous Mg- and Fe-cordierite Dolni Bory, T = 375 C _database_code_amcsd 0000710 CELL PARAMETERS: 17.2580 9.8470 9.3280 90.000 90.000 90.000 SPACE GROUP: Cccm X-RAY WAVELENGTH: 1.541838 Cell Volume: 1585.196 Density (g/cm3): 2.670 MAX. ABS. INTENSITY / VOLUME**2: 16.10213400 RIR: 1.964 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.25 55.71 8.6290 2 0 0 2 10.34 100.00 8.5527 1 1 0 4 17.86 2.76 4.9671 3 1 0 4 19.03 1.22 4.6640 0 0 2 2 21.66 10.66 4.1030 2 0 2 4 21.70 47.04 4.0947 1 1 2 8 26.21 46.09 3.4001 3 1 2 8 26.32 26.47 3.3860 0 2 2 4 27.66 1.22 3.2245 1 3 0 4 28.18 7.29 3.1672 4 0 2 4 28.31 21.82 3.1520 2 2 2 8 29.04 20.20 3.0752 5 1 1 8 29.14 17.49 3.0647 4 2 1 8 29.31 20.56 3.0476 1 3 1 8 31.09 2.44 2.8763 6 0 0 2 31.38 2.64 2.8509 3 3 0 4 33.56 9.36 2.6705 5 1 2 8 33.65 10.28 2.6636 4 2 2 8 33.79 6.21 2.6524 1 3 2 8 36.17 5.81 2.4836 6 2 0 4 36.50 3.91 2.4618 0 4 0 2 38.61 10.12 2.3320 0 0 4 2 41.18 7.23 2.1921 6 2 2 8 41.48 2.74 2.1771 0 4 2 4 42.48 3.87 2.1281 7 1 2 8 42.67 3.69 2.1189 5 3 2 8 42.84 5.05 2.1109 2 4 2 8 44.15 1.18 2.0515 4 0 4 4 44.24 1.82 2.0474 2 2 4 8 45.93 1.30 1.9759 8 2 0 4 46.04 2.60 1.9713 7 3 0 4 46.41 1.51 1.9567 1 5 0 4 47.99 2.25 1.8957 7 1 3 8 48.05 1.42 1.8937 4 2 4 8 48.16 1.90 1.8896 1 3 4 8 48.17 3.26 1.8892 5 3 3 8 48.32 3.17 1.8835 2 4 3 8 48.36 2.67 1.8822 9 1 0 4 48.69 2.71 1.8703 6 4 0 4 48.88 2.88 1.8632 3 5 0 4 49.72 1.49 1.8338 6 4 1 8 49.91 1.02 1.8271 3 5 1 8 50.38 3.15 1.8114 6 0 4 4 50.57 5.87 1.8050 3 3 4 8 52.42 1.95 1.7454 9 1 2 8 52.73 1.97 1.7359 6 4 2 8 52.92 1.76 1.7303 3 5 2 8 53.06 3.53 1.7258 10 0 0 2 53.58 4.06 1.7105 5 5 0 4 53.93 13.65 1.7000 6 2 4 8 54.18 7.40 1.6930 0 4 4 4 55.00 1.50 1.6696 7 1 4 8 57.21 1.75 1.6102 9 1 3 8 57.50 2.82 1.6027 6 4 3 8 57.68 1.72 1.5982 3 5 3 8 59.22 2.19 1.5603 9 3 2 8 59.73 1.57 1.5481 0 6 2 4 60.18 1.14 1.5376 10 2 2 8 61.51 1.89 1.5075 8 2 4 8 61.60 2.89 1.5055 7 3 4 8 61.90 1.94 1.4989 1 5 4 8 62.61 2.91 1.4837 3 1 6 8 62.67 1.40 1.4825 0 2 6 4 63.24 1.27 1.4704 11 1 2 8 63.68 3.22 1.4613 7 5 2 8 63.88 1.65 1.4572 4 6 2 8 65.48 1.48 1.4255 6 6 0 4 66.66 1.30 1.4030 5 1 6 8 66.71 1.60 1.4021 4 2 6 8 66.80 1.10 1.4004 1 3 6 8 67.90 1.06 1.3805 12 2 0 4 68.24 3.85 1.3743 12 0 2 4 68.69 1.16 1.3665 3 7 0 4 68.88 6.42 1.3632 6 6 2 8 69.11 1.13 1.3592 9 5 1 8 69.53 1.11 1.3520 3 7 1 8 70.53 1.47 1.3352 10 2 4 8 70.74 1.12 1.3318 8 4 4 8 71.61 2.45 1.3178 6 2 6 8 73.51 1.32 1.2883 11 3 3 8 74.19 1.01 1.2781 1 7 3 8 77.37 1.21 1.2334 5 1 7 8 77.51 1.18 1.2315 1 3 7 8 79.27 2.05 1.2086 10 4 4 8 79.82 1.07 1.2016 1 7 4 8 79.95 2.62 1.2000 12 4 2 8 80.75 1.24 1.1901 0 8 2 4 80.93 1.82 1.1879 12 2 4 8 81.27 1.23 1.1837 9 5 4 8 81.67 1.71 1.1790 3 7 4 8 82.78 2.44 1.1660 0 0 8 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.