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 = 293 K _database_code_amcsd 0002620 CELL PARAMETERS: 12.4890 12.4890 11.9090 90.000 90.000 90.000 SPACE GROUP: I4_1/acd X-RAY WAVELENGTH: 1.541838 Cell Volume: 1857.508 Density (g/cm3): 3.439 MAX. ABS. INTENSITY / VOLUME**2: 10.83512219 RIR: 1.026 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 14.18 19.29 6.2445 2 0 0 4 17.97 18.99 4.9371 1 1 2 8 20.11 41.83 4.4155 2 2 0 4 20.61 29.82 4.3093 2 0 2 8 27.09 22.32 3.2912 3 1 2 16 28.59 60.56 3.1223 4 0 0 4 30.01 59.97 2.9773 0 0 4 2 30.45 2.39 2.9356 4 1 1 16 32.05 31.91 2.7926 4 2 0 8 32.38 83.26 2.7652 4 0 2 8 33.34 36.52 2.6874 2 0 4 8 33.97 2.81 2.6388 3 3 2 8 34.36 10.92 2.6099 3 2 3 16 35.51 100.00 2.5284 4 2 2 16 36.40 24.19 2.4685 2 2 4 8 36.76 16.87 2.4446 4 3 1 16 37.34 3.72 2.4081 4 1 3 16 37.84 7.43 2.3774 3 1 4 16 39.59 11.37 2.2764 5 2 1 16 39.80 21.48 2.2652 5 1 2 16 41.20 9.88 2.1909 2 1 5 16 44.79 14.37 2.0233 6 1 1 16 44.98 17.32 2.0154 5 3 2 16 45.29 11.07 2.0025 5 2 3 16 45.96 20.69 1.9747 6 2 0 8 46.20 1.94 1.9649 6 0 2 8 46.26 1.97 1.9626 3 2 5 16 46.92 9.78 1.9365 1 1 6 8 47.22 1.21 1.9248 5 4 1 16 48.10 10.42 1.8916 2 0 6 8 48.63 2.35 1.8723 4 1 5 16 51.53 6.82 1.7734 4 4 4 8 52.26 4.51 1.7506 5 4 3 16 52.86 15.01 1.7319 6 4 0 8 53.73 12.88 1.7059 6 0 4 8 54.17 2.15 1.6933 5 5 2 8 54.81 21.82 1.6750 4 0 6 8 55.24 52.68 1.6630 6 4 2 16 55.29 1.18 1.6616 5 2 5 16 55.87 2.15 1.6457 3 3 6 8 55.87 39.67 1.6456 6 2 4 16 56.92 50.38 1.6178 4 2 6 16 59.18 13.97 1.5611 8 0 0 4 59.99 2.45 1.5421 5 1 6 16 60.25 2.59 1.5361 7 4 1 16 61.99 1.43 1.4970 6 4 4 16 62.38 8.56 1.4886 0 0 8 2 63.37 6.09 1.4678 8 2 2 16 63.41 1.01 1.4668 6 3 5 16 64.19 1.15 1.4508 8 3 1 16 66.26 2.40 1.4106 2 2 8 8 66.50 1.12 1.4061 4 3 7 16 67.02 10.43 1.3963 8 4 0 8 67.78 13.71 1.3826 8 0 4 8 68.39 1.88 1.3717 8 3 3 16 69.09 9.88 1.3594 8 4 2 16 69.65 4.17 1.3499 8 2 4 16 69.89 1.03 1.3459 7 6 1 16 70.02 7.81 1.3437 4 0 8 8 70.03 1.79 1.3436 9 1 2 16 71.50 1.50 1.3195 5 5 6 8 71.51 6.74 1.3194 6 6 4 8 71.87 4.38 1.3136 4 2 8 16 72.42 16.59 1.3050 6 4 6 16 72.42 1.12 1.3049 7 5 4 16 72.83 3.28 1.2986 8 1 5 16 75.15 4.06 1.2642 8 4 4 16 76.46 3.01 1.2458 8 3 5 16 78.20 1.04 1.2224 5 3 8 16 78.95 2.01 1.2126 4 1 9 16 79.32 1.35 1.2079 9 4 3 16 80.86 1.33 1.1887 6 2 8 16 82.28 1.23 1.1718 7 5 6 16 83.34 2.23 1.1596 10 4 0 8 84.04 3.21 1.1517 10 0 4 8 84.04 2.83 1.1517 8 6 4 16 84.92 3.39 1.1420 8 4 6 16 85.27 16.34 1.1382 10 4 2 16 85.79 6.94 1.1326 10 2 4 16 86.14 5.14 1.1289 6 4 8 16 86.36 1.89 1.1266 8 7 3 16 87.71 3.84 1.1127 4 0 10 8 88.59 4.56 1.1039 8 8 0 4 89.29 1.74 1.0971 9 3 6 16 89.46 8.28 1.0955 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.