Phlogopite Brigatti M F, Medici L, Saccani E, Vaccaro C American Mineralogist 81 (1996) 913-927 Crystal chemistry and petrologic significance of Fe3+-rich phlogopite from the Tapira carbonatite complex, Brazil Sample: Tae23-1b _database_code_amcsd 0001816 CELL PARAMETERS: 5.3300 9.2300 10.2560 90.000 99.920 90.000 SPACE GROUP: C2/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 497.010 Density (g/cm3): 2.825 MAX. ABS. INTENSITY / VOLUME**2: 8.802285502 RIR: 1.015 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.75 100.00 10.1027 0 0 1 2 17.56 2.12 5.0513 0 0 2 2 19.23 12.78 4.6150 0 2 0 2 19.45 17.14 4.5636 1 1 0 4 20.12 3.00 4.4144 -1 1 1 4 21.16 1.69 4.1978 0 2 1 4 22.55 16.37 3.9434 1 1 1 4 24.25 34.76 3.6708 -1 1 2 4 26.15 43.23 3.4071 0 2 2 4 26.47 41.62 3.3676 0 0 3 2 28.25 38.36 3.1592 1 1 2 4 30.54 25.75 2.9272 -1 1 3 4 32.93 13.02 2.7203 0 2 3 4 33.77 3.95 2.6545 -2 0 1 2 33.77 8.03 2.6545 1 3 0 4 34.16 26.41 2.6252 2 0 0 2 34.17 52.34 2.6241 -1 3 1 4 35.42 4.65 2.5344 1 1 3 4 35.54 6.52 2.5257 0 0 4 2 35.71 3.21 2.5141 1 3 1 4 35.73 1.61 2.5133 -2 0 2 2 36.83 14.08 2.4405 2 0 1 2 36.85 28.04 2.4389 -1 3 2 4 39.03 1.92 2.3075 0 4 0 2 39.15 3.90 2.3010 -2 2 1 4 39.49 4.17 2.2818 2 2 0 4 39.71 6.22 2.2698 1 3 2 4 39.73 3.08 2.2686 -2 0 3 2 40.08 4.37 2.2496 0 4 1 4 40.89 4.21 2.2072 -2 2 2 4 41.41 11.83 2.1807 2 0 2 2 41.44 23.52 2.1790 -1 3 3 4 41.87 3.30 2.1574 2 2 1 4 43.10 1.77 2.0989 0 4 2 4 44.86 8.36 2.0205 0 0 5 2 45.30 12.64 2.0017 1 3 3 4 45.34 6.27 2.0004 -2 0 4 2 47.44 1.80 1.9165 2 0 3 2 47.48 3.58 1.9149 -1 3 4 4 52.11 1.64 1.7550 1 3 4 4 52.55 1.03 1.7415 -2 4 1 4 53.93 2.05 1.7000 1 5 1 4 54.59 9.05 1.6811 2 0 4 2 54.64 18.14 1.6798 -1 3 5 4 54.75 3.74 1.6767 2 4 1 4 54.76 1.05 1.6762 -1 5 2 4 55.73 1.85 1.6495 3 1 1 4 55.76 4.62 1.6486 -3 1 3 4 56.90 4.10 1.6182 1 5 2 4 56.92 2.12 1.6177 -2 4 3 4 58.21 2.65 1.5849 2 4 2 4 58.24 1.81 1.5843 -1 5 3 4 59.66 1.21 1.5497 3 1 2 4 59.72 1.08 1.5485 -3 1 4 4 59.90 9.68 1.5442 1 3 5 4 59.94 4.81 1.5433 -2 0 6 2 60.14 22.08 1.5386 -3 3 1 4 60.15 11.02 1.5383 0 6 0 2 60.90 2.61 1.5212 3 3 0 4 60.92 2.63 1.5208 -3 3 2 4 60.92 2.62 1.5208 0 6 1 4 62.67 1.20 1.4825 2 0 5 2 62.72 2.41 1.4814 -1 3 6 4 64.57 1.54 1.4432 0 0 7 2 64.77 1.14 1.4394 -1 1 7 4 66.21 1.64 1.4114 2 2 5 4 68.55 11.00 1.3689 1 3 6 4 68.59 5.49 1.3681 -2 0 7 2 69.05 2.25 1.3602 0 4 6 4 70.77 1.20 1.3313 -4 0 1 2 70.79 2.38 1.3310 -2 6 1 4 71.02 2.92 1.3273 -4 0 2 2 71.02 5.91 1.3272 2 6 0 4 71.82 2.83 1.3145 3 3 3 4 71.86 2.82 1.3138 0 6 4 4 71.88 2.82 1.3135 -3 3 5 4 71.99 2.28 1.3117 -2 2 7 4 72.65 4.27 1.3014 2 6 1 4 72.67 2.13 1.3012 -4 0 3 2 74.48 1.23 1.2739 4 0 1 2 74.53 2.45 1.2732 -2 6 3 4 74.94 1.73 1.2672 2 2 6 4 75.25 1.41 1.2628 0 0 8 2 75.99 1.34 1.2523 -1 7 2 4 76.83 1.65 1.2407 -3 5 3 4 77.78 1.50 1.2280 4 2 1 4 85.58 4.50 1.1349 2 6 4 4 85.63 2.26 1.1343 -4 0 6 2 89.99 1.43 1.0904 4 0 4 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.