Ge Mn2 S4 Duc Tran Qui, Vincent H, Bertaut E, Qui Vu Van Solid State Communications 7 (1969) 641-645 Etude par Diffraction Neutronique de la Structure Nucleaire et Magnetique de l'Orthothiogermanate de Manganese _cod_database_code 1008109 _database_code_amcsd 0016051 CELL PARAMETERS: 12.7960 7.4540 6.0340 90.000 90.000 90.000 SPACE GROUP: Pnma X-RAY WAVELENGTH: 1.541838 Cell Volume: 575.531 Density (g/cm3): 3.586 MAX. ABS. INTENSITY / VOLUME**2: 19.64382035 RIR: 1.784 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 13.84 6.42 6.3980 2 0 0 2 16.24 2.71 5.4576 1 0 1 4 18.27 96.48 4.8549 2 1 0 4 18.92 23.91 4.6900 0 1 1 4 20.17 9.90 4.4035 1 1 1 8 20.23 10.08 4.3897 2 0 1 4 23.52 5.76 3.7825 2 1 1 8 23.88 17.20 3.7270 0 2 0 2 25.58 13.87 3.4830 3 0 1 4 28.28 100.00 3.1555 3 1 1 8 29.01 69.06 3.0778 1 2 1 8 30.44 6.29 2.9365 1 0 2 4 31.49 27.48 2.8411 2 2 1 8 31.66 23.16 2.8264 4 0 1 4 32.78 18.45 2.7321 1 1 2 8 32.82 1.12 2.7288 2 0 2 4 35.02 4.15 2.5625 2 1 2 8 35.27 17.68 2.5447 3 2 1 8 36.48 11.50 2.4631 3 0 2 4 37.03 8.02 2.4274 4 2 0 4 38.20 31.43 2.3560 5 0 1 4 38.39 1.73 2.3450 0 2 2 4 38.88 8.40 2.3161 2 3 0 4 39.05 3.68 2.3066 1 2 2 8 39.86 1.45 2.2613 1 3 1 8 40.04 3.81 2.2520 4 2 1 8 40.14 2.95 2.2465 5 1 1 8 40.99 74.39 2.2017 2 2 2 8 41.13 20.30 2.1949 4 0 2 4 41.77 3.01 2.1623 2 3 1 8 42.38 2.04 2.1327 6 0 0 2 44.07 13.83 2.0549 3 2 2 8 44.81 26.42 2.0227 3 3 1 8 45.55 1.94 1.9915 5 2 1 8 45.66 3.29 1.9869 1 0 3 4 46.27 1.51 1.9623 4 3 0 4 46.78 4.70 1.9419 0 1 3 4 46.79 1.72 1.9414 6 1 1 8 47.35 5.23 1.9199 1 1 3 8 47.38 4.35 1.9188 2 0 3 4 47.96 5.81 1.8968 1 3 2 8 48.20 8.51 1.8880 5 1 2 8 48.87 35.55 1.8635 0 4 0 2 49.22 58.24 1.8510 6 2 0 4 49.62 3.46 1.8372 2 3 2 8 51.65 2.32 1.7696 6 2 1 8 51.72 3.20 1.7673 3 1 3 8 52.17 4.12 1.7533 1 2 3 8 52.29 1.94 1.7495 7 0 1 4 53.41 1.16 1.7153 2 4 1 8 53.61 1.05 1.7096 5 3 1 8 53.73 30.77 1.7059 2 2 3 8 53.84 14.67 1.7027 4 0 3 4 54.08 2.60 1.6958 6 1 2 8 55.34 4.24 1.6600 4 1 3 8 55.96 2.52 1.6431 3 4 1 8 56.27 3.80 1.6349 3 2 3 8 58.26 2.26 1.5837 7 2 1 8 58.35 3.42 1.5814 5 0 3 4 58.68 1.64 1.5734 1 4 2 8 59.07 7.72 1.5639 8 1 0 4 59.09 1.11 1.5634 7 0 2 4 59.09 3.64 1.5633 0 3 3 4 59.10 2.10 1.5631 6 3 1 8 59.41 4.55 1.5558 4 4 1 8 59.58 2.14 1.5518 1 3 3 8 59.70 1.73 1.5488 4 2 3 8 59.78 1.99 1.5470 5 1 3 8 60.30 4.25 1.5348 5 3 2 8 60.51 1.32 1.5301 7 1 2 8 61.23 1.08 1.5139 8 1 1 8 61.47 5.43 1.5085 0 0 4 2 62.50 4.19 1.4861 3 4 2 8 63.32 1.23 1.4688 1 1 4 8 63.36 1.49 1.4678 3 3 3 8 63.67 11.75 1.4616 5 4 1 8 64.14 3.52 1.4519 2 5 0 4 64.37 1.40 1.4473 0 5 1 4 64.65 2.36 1.4417 7 2 2 8 64.95 4.03 1.4358 6 1 3 8 65.45 1.82 1.4261 6 3 2 8 65.73 7.65 1.4206 4 4 2 8 66.12 7.76 1.4132 8 0 2 4 66.58 2.64 1.4046 4 3 3 8 66.65 1.09 1.4033 6 4 0 4 67.45 1.31 1.3884 8 1 2 8 67.71 1.14 1.3839 9 0 1 4 68.46 6.27 1.3705 3 5 1 8 68.71 1.63 1.3661 2 2 4 8 68.81 2.29 1.3644 4 0 4 4 69.03 3.76 1.3606 9 1 1 8 69.11 1.52 1.3592 1 4 3 8 69.95 4.93 1.3449 8 3 0 4 70.12 2.34 1.3421 4 1 4 8 70.44 2.55 1.3368 2 4 3 8 70.60 1.17 1.3341 5 3 3 8 70.89 1.69 1.3293 1 5 2 8 73.66 1.03 1.2861 9 0 2 4 74.05 1.02 1.2802 5 1 4 8 74.09 1.27 1.2796 10 0 0 2 74.37 1.17 1.2755 7 4 1 8 74.64 2.51 1.2716 7 2 3 8 75.39 1.47 1.2608 6 3 3 8 75.66 8.88 1.2570 4 4 3 8 76.02 3.43 1.2519 8 0 3 4 78.71 1.39 1.2158 9 2 2 8 79.05 2.88 1.2113 1 6 1 8 79.23 2.35 1.2090 9 3 1 8 79.49 2.26 1.2057 5 4 3 8 79.83 2.59 1.2015 1 0 5 4 81.02 2.12 1.1867 8 2 3 8 81.03 1.57 1.1866 10 2 1 8 81.07 2.65 1.1862 1 1 5 8 81.19 1.49 1.1847 5 5 2 8 82.22 3.84 1.1725 0 4 4 4 82.49 6.09 1.1694 6 2 4 8 85.97 5.54 1.1307 2 6 2 8 86.03 1.04 1.1301 2 2 5 8 86.42 6.26 1.1260 8 4 2 8 88.06 1.51 1.1092 3 6 2 8 88.11 1.94 1.1087 3 2 5 8 88.90 2.00 1.1009 4 4 4 8 89.81 5.34 1.0921 11 2 1 8 89.97 1.75 1.0906 8 5 0 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.