Rinkite Rastsvetaeva R K, Borutskii B E, Shlyukova Z V Soviet Physics Crystallography 36 (1991) 349-351 Crystal structure of Hibbing rinkite Locality: Khibiny massif, Kola Peninsula, Russia _database_code_amcsd 0019464 CELL PARAMETERS: 5.6790 7.4120 18.8360 101.260 90.000 90.000 SPACE GROUP: P2_1 X-RAY WAVELENGTH: 1.541838 Cell Volume: 777.597 Density (g/cm3): 3.366 MAX. ABS. INTENSITY / VOLUME**2: 8.560013916 RIR: 0.828 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 4.78 1.50 18.4734 0 0 1 2 9.58 30.56 9.2367 0 0 2 2 13.94 1.22 6.3548 0 1 1 2 16.33 5.85 5.4283 1 0 1 2 16.96 6.56 5.2291 0 -1 3 2 18.34 1.24 4.8378 1 0 2 2 20.64 8.59 4.3025 0 1 3 2 20.98 4.37 4.2345 1 1 1 2 20.99 2.36 4.2320 1 -1 2 2 21.28 8.91 4.1747 1 0 3 2 23.10 7.06 3.8499 1 1 2 2 23.12 2.49 3.8468 1 -1 3 2 24.81 6.37 3.5889 0 -1 5 2 24.85 41.68 3.5831 1 0 4 2 26.01 5.44 3.4263 1 -1 4 2 28.77 13.68 3.1036 1 -2 1 2 28.83 21.98 3.0970 1 0 5 2 29.00 61.13 3.0789 0 0 6 2 29.17 98.72 3.0613 1 2 0 2 29.17 1.28 3.0611 0 1 5 2 29.18 95.13 3.0601 1 -2 2 2 29.41 1.72 3.0366 1 1 4 2 29.44 1.82 3.0338 1 -1 5 2 30.37 40.75 2.9431 1 2 1 2 30.39 38.46 2.9408 1 -2 3 2 31.89 53.79 2.8065 2 0 1 2 33.00 13.29 2.7141 2 0 2 2 33.10 61.72 2.7067 1 0 6 2 33.25 1.09 2.6946 1 1 5 2 34.24 6.49 2.6185 0 2 4 2 34.30 6.33 2.6145 0 -2 6 2 34.79 9.39 2.5786 2 0 3 2 34.81 11.65 2.5775 1 2 3 2 34.85 11.54 2.5745 1 -2 5 2 35.98 1.10 2.4962 2 1 2 2 37.17 13.17 2.4189 2 0 4 2 37.58 7.89 2.3933 1 0 7 2 38.50 1.20 2.3385 0 1 7 2 39.01 14.44 2.3092 0 0 8 2 40.31 1.58 2.2376 2 2 0 2 40.32 1.45 2.2371 2 -2 2 2 41.22 10.10 2.1902 2 2 1 2 41.24 10.71 2.1892 2 -2 3 2 41.28 1.30 2.1872 1 2 5 2 41.33 1.34 2.1844 1 -2 7 2 42.00 6.91 2.1513 0 2 6 2 42.06 6.61 2.1482 0 -2 8 2 42.25 4.36 2.1391 1 0 8 2 42.71 4.93 2.1173 2 2 2 2 42.73 5.48 2.1160 2 -2 4 2 43.35 4.16 2.0873 2 0 6 2 43.49 1.13 2.0807 2 -1 6 2 44.72 21.62 2.0263 2 2 3 2 44.76 22.41 2.0249 2 -2 5 2 45.07 16.05 2.0117 1 2 6 2 45.12 16.50 2.0092 1 -2 8 2 45.71 1.45 1.9847 1 3 3 2 47.01 2.71 1.9331 2 0 7 2 47.22 5.30 1.9250 2 2 4 2 47.26 5.02 1.9234 2 -2 6 2 48.50 1.49 1.8770 1 -3 7 2 49.15 16.62 1.8538 1 2 7 2 49.17 43.85 1.8530 0 -4 2 2 49.21 16.89 1.8515 1 -2 9 2 49.33 5.59 1.8473 0 0 10 2 50.14 17.73 1.8195 2 2 5 2 50.18 16.81 1.8179 2 -2 7 2 50.20 1.09 1.8173 0 4 0 2 50.44 3.58 1.8094 3 0 3 2 50.97 7.31 1.7915 2 0 8 2 52.01 1.55 1.7581 2 3 2 2 52.06 5.86 1.7567 1 0 10 2 52.90 1.27 1.7309 1 4 0 2 52.93 1.32 1.7299 1 -4 4 2 53.43 3.36 1.7147 2 2 6 2 53.49 3.34 1.7131 2 -2 8 2 53.49 3.91 1.7131 1 2 8 2 53.56 3.99 1.7110 1 -2 10 2 54.06 1.79 1.6964 2 -3 6 2 54.43 36.33 1.6858 3 -2 1 2 54.46 16.17 1.6847 3 0 5 2 55.83 2.25 1.6467 1 4 2 2 55.89 2.70 1.6451 1 -4 6 2 57.07 1.40 1.6137 2 2 7 2 57.13 1.32 1.6122 2 -2 9 2 57.20 3.49 1.6105 1 0 11 2 57.97 1.76 1.5910 1 4 3 2 58.04 1.87 1.5892 1 -4 7 2 58.06 6.28 1.5887 0 4 4 2 58.14 5.99 1.5866 0 -4 8 2 59.72 1.47 1.5485 2 0 10 2 59.80 4.93 1.5465 2 -4 1 2 59.81 4.64 1.5462 2 -4 3 2 60.16 6.56 1.5382 3 0 7 2 60.48 2.20 1.5307 2 4 0 2 60.49 2.09 1.5305 0 2 10 2 60.51 2.14 1.5300 2 -4 4 2 60.51 7.54 1.5300 1 4 4 2 60.57 2.18 1.5288 0 -2 12 2 60.60 7.09 1.5281 1 -4 8 2 62.51 5.89 1.4858 1 0 12 2 62.83 4.99 1.4791 3 2 5 2 62.87 4.97 1.4782 3 -2 7 2 63.19 1.49 1.4716 2 4 2 2 63.24 1.44 1.4704 2 -4 6 2 63.45 1.42 1.4661 1 4 5 2 63.54 1.26 1.4642 1 -4 9 2 64.42 1.42 1.4463 0 4 6 2 64.53 1.54 1.4442 0 -4 10 2 65.28 3.63 1.4294 2 2 9 2 65.34 3.69 1.4281 2 -2 11 2 65.78 1.90 1.4197 4 0 0 1 65.99 8.24 1.4156 4 0 1 2 66.65 3.55 1.4033 4 0 2 2 67.93 2.52 1.3798 1 2 11 2 68.01 2.60 1.3784 1 -2 13 2 69.23 2.41 1.3571 4 0 4 2 69.45 1.77 1.3534 2 0 12 2 69.81 1.13 1.3473 2 2 10 2 69.88 1.18 1.3461 2 -2 12 2 71.00 1.24 1.3275 0 2 12 2 71.09 1.13 1.3262 0 -2 14 2 72.15 1.97 1.3093 0 4 8 2 72.27 2.06 1.3073 0 -4 12 2 73.08 1.00 1.2949 3 4 1 2 73.11 1.15 1.2943 3 -4 5 2 73.48 1.64 1.2887 2 4 6 2 73.58 1.69 1.2872 2 -4 10 2 73.71 1.09 1.2853 1 0 14 2 74.35 1.40 1.2758 1 4 8 2 74.48 1.40 1.2740 1 -4 12 2 74.63 5.93 1.2718 2 2 11 2 74.70 1.81 1.2708 2 0 13 2 74.70 5.91 1.2707 2 -2 13 2 75.71 5.29 1.2563 3 0 11 2 76.13 2.28 1.2503 4 0 7 2 76.37 3.58 1.2470 3 4 3 2 76.44 3.68 1.2461 3 -4 7 2 76.47 1.10 1.2457 3 2 9 2 76.53 1.10 1.2448 3 -2 11 2 78.54 1.34 1.2179 4 2 5 2 78.58 1.26 1.2175 4 -2 7 2 79.20 2.20 1.2094 4 0 8 2 79.58 1.79 1.2047 1 -6 2 2 79.59 1.85 1.2044 1 -6 4 2 80.18 1.48 1.1972 1 -6 1 2 80.21 1.50 1.1967 1 -6 5 2 81.25 2.09 1.1841 3 4 5 2 81.33 1.84 1.1830 3 -4 9 2 82.64 1.05 1.1676 4 0 9 2 83.30 1.42 1.1600 1 4 10 2 83.45 1.32 1.1584 1 -4 14 2 83.78 4.08 1.1546 0 0 16 2 85.18 1.32 1.1392 2 2 13 2 85.26 1.21 1.1383 2 -2 15 2 85.43 2.12 1.1365 3 0 13 2 86.52 2.49 1.1250 4 -4 1 2 86.53 2.31 1.1248 4 -4 3 2 86.56 1.18 1.1245 2 -6 1 2 86.59 1.20 1.1242 2 -6 5 2 87.11 1.57 1.1188 4 4 0 2 87.13 1.42 1.1186 4 -4 4 2 88.94 1.15 1.1005 2 6 1 2 89.01 1.22 1.0998 2 -6 7 2 89.16 1.01 1.0983 1 6 4 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.