Phlogopite Chon C-M, Lee C-K, Song Y, Kim S A Physics and Chemistry of Minerals 33 (2006) 289-299 Structural changes and oxidation of ferroan phlogopite with increasing temperature: in situ neutron powder diffraction and Fourier transform infrared spectroscopy Locality: Quebec, Canada Sample: T = 400 C _database_code_amcsd 0009036 CELL PARAMETERS: 5.3377 9.2455 10.2729 90.000 100.093 90.000 SPACE GROUP: C2/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 499.119 Density (g/cm3): 2.887 MAX. ABS. INTENSITY / VOLUME**2: 10.32305052 RIR: 1.164 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.74 100.00 10.1139 0 0 1 2 19.20 8.36 4.6227 0 2 0 2 19.43 11.93 4.5687 1 1 0 4 20.07 2.50 4.4241 -1 1 1 4 21.13 1.07 4.2044 0 2 1 4 22.54 10.52 3.9442 1 1 1 4 24.18 26.41 3.6804 -1 1 2 4 26.12 41.24 3.4120 0 2 2 4 26.44 37.95 3.3713 0 0 3 2 28.25 33.97 3.1591 1 1 2 4 30.46 24.71 2.9347 -1 1 3 4 32.88 12.44 2.7239 0 2 3 4 33.71 3.49 2.6591 -2 0 1 2 33.71 8.51 2.6584 1 3 0 4 34.10 43.08 2.6290 -1 3 1 4 34.12 22.20 2.6275 2 0 0 2 35.42 4.02 2.5345 1 1 3 4 35.50 5.72 2.5285 0 0 4 2 35.67 1.19 2.5168 1 3 1 4 36.77 31.79 2.4440 -1 3 2 4 36.82 17.27 2.4411 2 0 1 2 37.96 1.11 2.3706 -1 1 4 4 38.97 2.10 2.3114 0 4 0 2 39.08 4.17 2.3049 -2 2 1 4 39.45 4.40 2.2843 2 2 0 4 39.62 1.89 2.2747 -2 0 3 2 39.68 5.43 2.2716 1 3 2 4 40.01 3.86 2.2533 0 4 1 4 40.79 2.68 2.2121 -2 2 2 4 41.35 19.52 2.1837 -1 3 3 4 41.41 11.33 2.1805 2 0 2 2 41.85 3.13 2.1586 2 2 1 4 43.03 1.28 2.1022 0 4 2 4 44.81 7.01 2.0228 0 0 5 2 45.20 4.01 2.0060 -2 0 4 2 45.27 10.31 2.0029 1 3 3 4 47.37 3.80 1.9190 -1 3 4 4 47.45 1.61 1.9160 2 0 3 2 51.64 1.10 1.7700 2 2 3 4 53.85 1.12 1.7024 1 5 1 4 54.51 20.73 1.6833 -1 3 5 4 54.61 8.62 1.6807 2 0 4 2 54.65 1.08 1.6793 -1 5 2 4 54.69 2.87 1.6784 2 4 1 4 55.62 3.09 1.6524 -3 1 3 4 55.70 2.02 1.6503 3 1 1 4 56.78 2.70 1.6213 -2 4 3 4 56.83 2.95 1.6201 1 5 2 4 58.11 1.84 1.5873 -1 5 3 4 58.16 2.41 1.5861 2 4 2 4 59.54 1.19 1.5525 -3 1 4 4 59.76 4.30 1.5474 -2 0 6 2 59.86 9.58 1.5451 1 3 5 4 60.04 9.37 1.5409 0 6 0 2 60.04 19.26 1.5409 -3 3 1 4 60.79 3.08 1.5237 -3 3 2 4 60.81 3.17 1.5233 0 6 1 4 60.83 3.21 1.5229 3 3 0 4 62.58 2.06 1.4843 -1 3 6 4 62.68 1.20 1.4822 2 0 5 2 64.49 1.72 1.4448 0 0 7 2 66.21 1.16 1.4114 2 2 5 4 66.70 1.03 1.4024 -3 3 4 4 67.98 1.02 1.3791 0 2 7 4 68.40 4.93 1.3716 -2 0 7 2 68.50 10.17 1.3697 1 3 6 4 68.95 1.78 1.3619 0 4 6 4 70.65 2.13 1.3332 -2 6 1 4 70.67 1.18 1.3330 -4 0 1 2 70.88 2.79 1.3295 -4 0 2 2 70.90 6.15 1.3292 2 6 0 4 71.67 2.82 1.3169 -3 3 5 4 71.73 2.60 1.3158 0 6 4 4 71.79 1.96 1.3149 -2 2 7 4 71.80 2.80 1.3147 3 3 3 4 72.49 2.14 1.3039 -4 0 3 2 72.55 4.85 1.3030 2 6 1 4 74.35 2.87 1.2758 -2 6 3 4 74.43 1.43 1.2746 4 0 1 2 74.94 1.58 1.2672 2 2 6 4 75.15 1.23 1.2642 0 0 8 2 77.72 1.12 1.2288 4 2 1 4 79.88 1.05 1.2008 2 6 3 4 85.35 2.63 1.1374 -4 0 6 2 85.49 4.41 1.1358 2 6 4 4 89.83 3.22 1.0919 -2 6 6 4 90.00 1.46 1.0902 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.