Phlogopite Ventruti G, Zema M, Scordari F, Pedrazzi G American Mineralogist 93 (2008) 632-643 Thermal behavior of a Ti-rich phlogopite from Mt. Vulture (Potenza, Italy): An in situ X-ray single-crystal diffraction study Locality: trioctahedral mica, Cava St. Antonia, Mt. Vulture, Potenza, Italy Sample: T = 298 K after reversal experiment _database_code_amcsd 0004550 CELL PARAMETERS: 5.3160 9.2043 10.1613 90.000 100.060 90.000 SPACE GROUP: C2/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 489.549 Density (g/cm3): 2.973 MAX. ABS. INTENSITY / VOLUME**2: 11.63268260 RIR: 1.274 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.84 100.00 10.0051 0 0 1 2 19.29 5.95 4.6021 0 2 0 2 19.51 8.10 4.5500 1 1 0 4 20.18 2.24 4.4013 -1 1 1 4 22.66 10.02 3.9234 1 1 1 4 24.36 28.31 3.6534 -1 1 2 4 26.31 38.77 3.3869 0 2 2 4 26.73 40.22 3.3350 0 0 3 2 28.45 34.90 3.1372 1 1 2 4 30.74 21.37 2.9087 -1 1 3 4 33.17 10.07 2.7005 0 2 3 4 33.86 2.14 2.6477 -2 0 1 2 33.87 4.47 2.6469 1 3 0 4 34.26 24.96 2.6171 2 0 0 2 34.27 49.84 2.6167 -1 3 1 4 35.72 3.93 2.5140 1 1 3 4 35.85 1.17 2.5047 1 3 1 4 35.90 5.29 2.5013 0 0 4 2 36.99 12.20 2.4301 2 0 1 2 36.99 24.19 2.4300 -1 3 2 4 38.34 1.20 2.3475 -1 1 4 4 39.15 1.52 2.3011 0 4 0 2 39.26 3.15 2.2950 -2 2 1 4 39.62 4.52 2.2750 2 2 0 4 39.90 3.01 2.2595 -2 0 3 2 39.92 5.99 2.2586 1 3 2 4 40.21 5.00 2.2425 0 4 1 4 41.01 4.32 2.2007 -2 2 2 4 41.65 24.37 2.1686 -1 3 3 4 41.65 12.05 2.1686 2 0 2 2 42.05 2.58 2.1489 2 2 1 4 43.28 1.01 2.0905 0 4 2 4 45.32 6.11 2.0010 0 0 5 2 45.58 5.78 1.9902 -2 0 4 2 45.60 10.91 1.9895 1 3 3 4 47.77 4.66 1.9039 -1 3 4 4 47.78 2.35 1.9037 2 0 3 2 52.51 1.08 1.7427 1 3 4 4 54.12 2.77 1.6945 1 5 1 4 54.95 3.88 1.6709 2 4 1 4 55.03 18.20 1.6687 -1 3 5 4 55.04 9.43 1.6685 2 0 4 2 55.07 1.34 1.6675 0 0 6 2 55.94 3.91 1.6436 -3 1 3 4 55.95 1.44 1.6433 3 1 1 4 57.13 2.56 1.6122 -2 4 3 4 57.15 2.96 1.6119 1 5 2 4 58.48 2.35 1.5782 -1 5 3 4 58.48 2.06 1.5782 2 4 2 4 59.96 1.27 1.5429 -3 1 4 4 59.97 1.30 1.5425 3 1 2 4 60.32 21.58 1.5345 -3 3 1 4 60.34 10.66 1.5340 0 6 0 2 60.39 5.56 1.5329 -2 0 6 2 60.41 11.13 1.5324 1 3 5 4 61.10 2.84 1.5168 -3 3 2 4 61.10 2.69 1.5167 3 3 0 4 61.12 2.65 1.5163 0 6 1 4 63.23 2.26 1.4707 -1 3 6 4 63.24 1.10 1.4705 2 0 5 2 65.28 1.34 1.4293 0 0 7 2 66.78 1.09 1.4007 2 2 5 4 67.16 1.04 1.3939 3 3 2 4 69.17 5.09 1.3582 -2 0 7 2 69.19 9.95 1.3578 1 3 6 4 69.63 1.44 1.3502 0 4 6 4 71.01 1.94 1.3274 -2 6 1 4 71.23 3.07 1.3239 -4 0 2 2 71.25 6.12 1.3235 2 6 0 4 72.22 2.82 1.3081 -3 3 5 4 72.24 2.78 1.3078 3 3 3 4 72.25 2.76 1.3077 0 6 4 4 72.57 1.98 1.3026 -2 2 7 4 72.89 2.13 1.2977 -4 0 3 2 72.92 3.89 1.2972 2 6 1 4 74.80 1.20 1.2693 4 0 1 2 74.81 2.32 1.2692 -2 6 3 4 75.66 2.06 1.2570 2 2 6 4 76.11 1.30 1.2506 0 0 8 2 76.26 1.73 1.2485 -1 7 2 4 77.10 2.11 1.2371 -3 5 3 4 78.10 1.48 1.2236 4 2 1 4 78.83 1.37 1.2141 0 4 7 4 80.39 1.13 1.1945 2 6 3 4 86.06 2.49 1.1297 -4 0 6 2 86.10 4.88 1.1293 2 6 4 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.