Polylithionite Brigatti M F, Mottana A, Malferrari D, Cibin G American Mineralogist 92 (2007) 1395-1400 Crystal structure and chemical composition of Li-, Fe-, and Mn-rich micas Locality: Hirukawa mine, Ena county, Gifu prefecture, Chibu region, Japan Sample: Hirukawa _database_code_amcsd 0004416 CELL PARAMETERS: 5.2640 9.0860 10.0990 90.000 100.719 90.000 SPACE GROUP: C2 X-RAY WAVELENGTH: 1.541838 Cell Volume: 474.594 Density (g/cm3): 2.907 MAX. ABS. INTENSITY / VOLUME**2: 5.066129315 RIR: 0.568 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.91 100.00 9.9228 0 0 1 2 17.88 10.38 4.9614 0 0 2 2 19.54 34.04 4.5430 0 2 0 1 19.75 19.47 4.4949 1 1 0 2 20.33 18.80 4.3684 -1 1 1 2 21.51 9.04 4.1307 0 2 1 2 23.00 20.36 3.8663 1 1 1 2 24.48 73.96 3.6364 -1 1 2 2 26.60 76.21 3.3506 0 2 2 2 26.96 52.63 3.3076 0 0 3 2 28.88 85.63 3.0917 1 1 2 2 30.87 55.66 2.8969 -1 1 3 2 33.51 29.32 2.6740 0 2 3 2 34.16 16.83 2.6244 -2 0 1 2 34.31 33.24 2.6135 1 3 0 2 34.66 64.76 2.5880 -1 3 1 2 34.69 32.60 2.5861 2 0 0 2 36.06 3.18 2.4910 -2 0 2 2 36.21 5.95 2.4807 0 0 4 2 36.23 8.47 2.4796 1 1 3 2 36.36 7.12 2.4708 1 3 1 2 37.35 49.28 2.4075 -1 3 2 2 37.54 28.95 2.3961 2 0 1 2 38.51 1.16 2.3376 -1 1 4 2 39.66 8.51 2.2725 -2 2 1 2 39.68 7.29 2.2715 0 4 0 1 40.07 1.84 2.2505 -2 0 3 2 40.12 13.06 2.2475 2 2 0 2 40.49 3.15 2.2276 1 3 2 2 40.75 9.12 2.2142 0 4 1 2 41.34 8.79 2.1842 -2 2 2 2 42.00 31.99 2.1514 -1 3 3 2 42.31 17.26 2.1362 2 0 2 2 42.66 5.80 2.1194 2 2 1 2 43.83 3.05 2.0653 0 4 2 2 44.95 2.23 2.0166 -2 2 3 2 45.72 20.15 1.9846 0 0 5 2 45.73 6.45 1.9840 -2 0 4 2 46.25 15.48 1.9629 1 3 3 2 48.14 2.64 1.8901 -1 3 4 2 48.63 1.06 1.8725 0 4 3 2 50.17 3.97 1.8182 -2 2 4 2 52.65 2.97 1.7383 -2 0 5 2 52.82 2.10 1.7332 2 2 3 2 53.17 1.54 1.7227 -3 1 1 2 53.25 4.26 1.7203 1 3 4 2 53.34 1.58 1.7175 -2 4 1 2 53.44 1.45 1.7145 1 5 0 2 53.69 1.38 1.7072 -1 5 1 2 54.68 1.30 1.6784 -2 4 2 2 54.80 2.60 1.6753 0 4 4 2 54.91 4.11 1.6722 1 5 1 2 55.44 35.90 1.6573 -1 3 5 2 55.63 6.52 1.6522 -1 5 2 2 55.76 4.39 1.6485 2 4 1 2 55.93 17.34 1.6440 2 0 4 2 56.32 10.28 1.6336 -3 1 3 2 56.78 3.97 1.6213 3 1 1 2 57.66 7.42 1.5987 -2 4 3 2 57.99 7.45 1.5905 1 5 2 2 59.15 3.03 1.5620 -1 5 3 2 59.39 5.93 1.5561 2 4 2 2 60.27 2.37 1.5356 -3 1 4 2 60.59 7.55 1.5282 -2 0 6 2 60.94 4.35 1.5203 3 1 2 2 61.03 33.07 1.5182 -3 3 1 2 61.21 15.56 1.5143 0 6 0 1 61.24 12.68 1.5135 1 3 5 2 61.71 3.10 1.5031 -3 3 2 2 61.93 3.98 1.4983 3 3 0 2 61.99 3.68 1.4970 0 6 1 2 62.11 1.33 1.4945 0 4 5 2 62.12 1.27 1.4943 -2 4 4 2 62.94 1.61 1.4767 1 1 6 2 63.70 3.45 1.4609 -1 3 6 2 64.09 1.18 1.4529 -1 5 4 2 64.26 1.64 1.4496 2 0 5 2 64.31 1.29 1.4485 -2 2 6 2 65.80 2.05 1.4193 -1 1 7 2 65.89 1.40 1.4175 0 0 7 2 67.87 5.73 1.3810 2 2 5 2 69.43 9.15 1.3537 -2 0 7 2 69.46 1.75 1.3532 0 2 7 2 70.14 17.49 1.3417 1 3 6 2 70.43 4.84 1.3370 0 4 6 2 71.85 3.77 1.3139 -4 0 1 2 71.96 5.88 1.3122 -4 0 2 2 72.00 7.96 1.3116 -2 6 1 2 72.31 10.28 1.3068 2 6 0 2 72.67 5.50 1.3012 -3 3 5 2 72.86 1.44 1.2982 -1 3 7 2 72.92 6.20 1.2973 -2 2 7 2 73.23 6.08 1.2925 0 6 4 2 73.48 5.58 1.2888 3 3 3 2 73.51 2.75 1.2883 -4 0 3 2 74.06 7.04 1.2801 2 6 1 2 75.29 1.60 1.2622 -3 5 1 2 75.40 1.22 1.2607 -4 2 2 2 75.70 4.90 1.2564 -2 6 3 2 75.96 2.35 1.2527 4 0 1 2 76.86 2.81 1.2403 0 0 8 2 76.90 3.33 1.2398 2 2 6 2 76.93 1.27 1.2394 -4 2 3 2 77.35 1.62 1.2337 -1 7 2 2 77.93 2.79 1.2259 -3 5 3 2 78.99 1.60 1.2121 -3 3 6 2 79.34 2.44 1.2076 4 2 1 2 79.37 1.39 1.2073 1 7 2 2 79.64 1.41 1.2039 0 6 5 2 79.74 2.15 1.2026 0 4 7 2 79.85 1.07 1.2012 -4 2 4 2 79.97 1.71 1.1997 1 3 7 2 79.98 1.08 1.1996 3 3 4 2 80.37 1.79 1.1947 -1 7 3 2 81.94 1.20 1.1758 3 5 2 2 83.72 1.82 1.1552 1 5 6 2 86.19 1.15 1.1284 0 8 1 2 86.31 1.03 1.1271 -1 5 7 2 86.49 4.62 1.1252 -4 0 6 2 87.60 8.01 1.1138 2 6 4 2 88.86 1.51 1.1012 -3 1 8 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.