Bahariyaite Hoppe R, Fischer D, Schneider J Zeitschrift fur Anorganische und Allgemeine Chemie 625 (1999) 1135-1142 Zur Kenntnis von Oxyden A[MO4]: Uber LiMnO4, KMnO4, RbMnO4, CsMnO4 sowie RbIO4 und CsIO4. (- Was heibt eigentlich ,,Die Kristallstruktur von . . .''? -) Locality: synthetic _database_code_amcsd 0020918 CELL PARAMETERS: 9.1280 5.7280 7.4360 90.000 90.000 90.000 SPACE GROUP: Pnma X-RAY WAVELENGTH: 1.541838 Cell Volume: 388.793 Density (g/cm3): 2.699 MAX. ABS. INTENSITY / VOLUME**2: 13.71905679 RIR: 1.655 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 15.37 13.45 5.7652 1 0 1 4 19.45 10.99 4.5640 2 0 0 2 19.56 44.05 4.5378 0 1 1 4 21.87 1.60 4.0634 1 1 1 8 22.86 20.95 3.8898 2 0 1 4 23.93 36.72 3.7180 0 0 2 2 24.95 83.52 3.5695 2 1 0 4 25.88 17.57 3.4433 1 0 2 4 27.72 100.00 3.2179 2 1 1 8 30.29 81.73 2.9511 1 1 2 8 31.02 15.09 2.8826 2 0 2 4 31.23 43.52 2.8640 0 2 0 2 34.84 19.24 2.5749 2 1 2 8 34.98 19.10 2.5649 1 2 1 8 38.22 1.40 2.3547 3 0 2 4 39.06 3.12 2.3063 2 2 1 8 39.49 2.18 2.2820 4 0 0 2 39.73 1.47 2.2689 0 2 2 4 40.88 8.06 2.2073 1 1 3 8 40.99 24.82 2.2019 1 2 2 8 41.39 39.91 2.1816 4 0 1 4 41.46 5.44 2.1782 2 0 3 4 41.46 6.95 2.1778 3 1 2 8 44.50 1.94 2.0359 2 1 3 8 44.60 1.71 2.0317 2 2 2 8 47.30 10.05 1.9217 3 0 3 4 49.27 1.22 1.8493 0 3 1 4 49.49 8.72 1.8416 4 1 2 8 49.66 12.95 1.8359 1 2 3 8 50.07 11.14 1.8219 3 1 3 8 50.07 1.35 1.8216 1 0 4 4 50.16 3.66 1.8189 3 2 2 8 51.91 5.53 1.7614 2 3 0 4 52.73 8.36 1.7359 1 1 4 8 52.75 9.01 1.7354 4 2 1 8 52.80 1.32 1.7337 2 2 3 8 53.46 9.31 1.7140 2 3 1 8 54.15 1.51 1.6937 5 1 1 8 54.67 3.46 1.6788 4 0 3 4 54.99 14.61 1.6698 1 3 2 8 57.78 10.36 1.5958 3 2 3 8 57.93 2.14 1.5918 2 3 2 8 60.21 5.86 1.5370 1 2 4 8 61.51 1.91 1.5075 5 2 1 8 62.64 1.17 1.4830 3 3 2 8 63.24 5.26 1.4704 6 1 0 4 63.26 1.48 1.4699 5 0 3 4 64.32 1.50 1.4483 4 2 3 8 64.61 7.90 1.4424 6 1 1 8 65.14 8.10 1.4320 0 4 0 2 65.57 7.29 1.4238 5 1 3 8 66.39 1.19 1.4080 6 0 2 4 66.95 1.22 1.3977 4 1 4 8 67.50 9.13 1.3877 3 2 4 8 68.33 2.44 1.3728 2 1 5 8 68.64 1.16 1.3673 6 1 2 8 68.92 1.63 1.3625 4 3 2 8 69.38 5.30 1.3545 3 3 3 8 70.47 1.96 1.3363 0 4 2 4 71.33 1.36 1.3222 1 4 2 8 71.59 4.37 1.3180 1 3 4 8 72.24 6.83 1.3077 5 2 3 8 72.34 3.58 1.3063 1 2 5 8 72.66 4.01 1.3012 3 1 5 8 73.90 1.26 1.2825 2 4 2 8 74.89 1.11 1.2679 2 2 5 8 76.45 2.17 1.2460 4 0 5 4 76.93 1.32 1.2393 0 0 6 2 77.59 2.13 1.2305 7 0 2 4 79.70 1.50 1.2031 7 1 2 8 80.18 6.45 1.1971 4 4 1 8 80.77 2.00 1.1898 6 3 0 4 81.11 2.46 1.1857 5 2 4 8 82.02 2.27 1.1749 6 3 1 8 82.37 2.50 1.1708 2 1 6 8 82.89 3.83 1.1647 5 3 3 8 84.35 2.27 1.1483 3 4 3 8 84.87 1.54 1.1425 4 2 5 8 85.01 2.12 1.1410 8 0 0 2 85.98 1.98 1.1306 7 2 2 8 86.00 1.83 1.1304 5 1 5 8 87.87 1.66 1.1111 2 5 0 4 89.10 2.32 1.0989 2 5 1 8 89.53 2.81 1.0947 3 3 5 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.