Henritermierite Armbruster T, Kohler T, Libowitzky E, Friedrich A, Miletich R, Kunz M, Medenbach O, Gutzmer J American Mineralogist 86 (2001) 147-158 Structure, compressibility, hydrogen bonding, and dehydration of the tetragonal Mn3+ hydrogarnet, henritermierite Sample: T = 100 K _database_code_amcsd 0002619 CELL PARAMETERS: 12.4680 12.4680 11.8940 90.000 90.000 90.000 SPACE GROUP: I4_1/acd X-RAY WAVELENGTH: 1.541838 Cell Volume: 1848.935 Density (g/cm3): 3.458 MAX. ABS. INTENSITY / VOLUME**2: 11.04770932 RIR: 1.040 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 14.21 18.57 6.2340 2 0 0 4 17.99 18.60 4.9302 1 1 2 8 20.14 40.96 4.4081 2 2 0 4 20.64 29.60 4.3030 2 0 2 8 27.14 22.28 3.2861 3 1 2 16 28.64 59.99 3.1170 4 0 0 4 30.05 59.51 2.9735 0 0 4 2 30.50 2.37 2.9307 4 1 1 16 32.11 31.56 2.7879 4 2 0 8 32.43 82.92 2.7608 4 0 2 8 33.39 36.58 2.6838 2 0 4 8 34.03 2.83 2.6346 3 3 2 8 34.41 11.17 2.6060 3 2 3 16 35.56 100.00 2.5243 4 2 2 16 36.45 24.35 2.4651 2 2 4 8 36.83 17.01 2.4405 4 3 1 16 37.40 3.77 2.4044 4 1 3 16 37.90 7.55 2.3740 3 1 4 16 39.66 11.63 2.2726 5 2 1 16 39.86 22.18 2.2615 5 1 2 16 41.26 9.96 2.1880 2 1 5 16 44.87 14.63 2.0200 6 1 1 16 45.06 17.66 2.0121 5 3 2 16 45.36 11.27 1.9993 5 2 3 16 46.04 20.92 1.9714 6 2 0 8 46.28 1.97 1.9617 6 0 2 8 46.33 2.08 1.9599 3 2 5 16 46.98 10.06 1.9340 1 1 6 8 47.30 1.18 1.9216 5 4 1 16 48.17 10.52 1.8891 2 0 6 8 48.70 2.47 1.8696 4 1 5 16 51.62 6.98 1.7707 4 4 4 8 52.35 4.56 1.7478 5 4 3 16 52.96 15.58 1.7290 6 4 0 8 53.82 13.29 1.7033 6 0 4 8 54.26 2.22 1.6905 5 5 2 8 54.89 22.42 1.6727 4 0 6 8 55.33 53.78 1.6603 6 4 2 16 55.38 1.22 1.6591 5 2 5 16 55.95 2.20 1.6434 3 3 6 8 55.96 40.72 1.6431 6 2 4 16 57.00 51.55 1.6156 4 2 6 16 59.29 14.28 1.5585 8 0 0 4 60.08 2.55 1.5399 5 1 6 16 60.36 2.67 1.5336 7 4 1 16 62.10 1.44 1.4947 6 4 4 16 62.47 8.83 1.4868 0 0 8 2 63.48 6.31 1.4653 8 2 2 16 63.52 1.01 1.4646 6 3 5 16 64.32 1.24 1.4484 8 3 1 16 66.35 2.45 1.4088 2 2 8 8 66.60 1.18 1.4042 4 3 7 16 67.15 10.86 1.3940 8 4 0 8 67.90 14.16 1.3804 8 0 4 8 68.52 1.97 1.3695 8 3 3 16 69.23 10.23 1.3572 8 4 2 16 69.78 4.36 1.3477 8 2 4 16 70.02 1.07 1.3437 7 6 1 16 70.13 8.21 1.3419 4 0 8 8 70.16 1.88 1.3414 9 1 2 16 71.63 1.62 1.3175 5 5 6 8 71.64 7.14 1.3173 6 6 4 8 71.98 4.63 1.3119 4 2 8 16 72.55 17.17 1.3030 6 4 6 16 72.56 1.20 1.3028 7 5 4 16 72.97 3.45 1.2966 8 1 5 16 75.29 4.19 1.2622 8 4 4 16 76.60 3.16 1.2439 8 3 5 16 78.33 1.11 1.2207 5 3 8 16 79.08 2.13 1.2110 4 1 9 16 79.47 1.45 1.2059 9 4 3 16 81.00 1.37 1.1870 6 2 8 16 81.03 1.02 1.1866 9 5 2 16 82.43 1.37 1.1700 7 5 6 16 83.00 1.09 1.1634 6 5 7 16 83.51 2.40 1.1576 10 4 0 8 84.21 3.01 1.1498 8 6 4 16 84.21 3.49 1.1498 10 0 4 8 85.08 3.58 1.1403 8 4 6 16 85.45 17.47 1.1363 10 4 2 16 85.97 7.41 1.1307 10 2 4 16 86.29 5.55 1.1273 6 4 8 16 86.54 2.01 1.1247 8 7 3 16 87.85 4.10 1.1112 4 0 10 8 88.78 4.88 1.1020 8 8 0 4 89.46 1.91 1.0954 9 3 6 16 89.61 8.90 1.0940 4 2 10 16 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.