Albite Winter J K, Okamura F P, Ghose S American Mineralogist 64 (1979) 409-423 A high-temperature structural study of high albite, monalbite, and the analbite - monalbite phase transition T = 1060 deg C, sample = monalbite Locality: Tiburon, Marin County, California, USA _database_code_amcsd 0000721 CELL PARAMETERS: 8.2970 12.9940 7.1440 90.000 116.010 90.000 SPACE GROUP: C2/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 692.195 Density (g/cm3): 2.516 MAX. ABS. INTENSITY / VOLUME**2: 5.098966460 RIR: 0.660 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 13.63 20.88 6.4970 0 2 0 2 13.69 11.10 6.4674 1 1 0 4 13.79 10.70 6.4204 0 0 1 2 15.31 18.77 5.7883 -1 1 1 4 21.69 100.00 4.0975 -2 0 1 2 22.93 50.69 3.8782 1 1 1 4 23.76 72.66 3.7453 1 3 0 4 24.74 5.60 3.5984 -1 3 1 4 25.70 1.54 3.4658 -2 2 1 4 25.87 22.49 3.4441 -1 1 2 4 27.46 56.45 3.2485 0 4 0 2 27.58 60.38 3.2337 2 2 0 4 27.59 60.34 3.2326 -2 0 2 2 27.79 79.81 3.2102 0 0 2 2 30.16 33.65 2.9635 1 3 1 4 30.85 11.98 2.8986 0 4 1 4 30.90 8.92 2.8941 -2 2 2 4 31.07 10.26 2.8781 0 2 2 4 32.49 10.61 2.7557 -1 3 2 4 35.26 22.40 2.5456 -2 4 1 4 35.33 4.93 2.5408 -3 1 2 4 35.52 1.84 2.5276 2 2 1 4 35.64 2.22 2.5191 1 1 2 4 36.69 9.51 2.4492 2 4 0 4 36.82 5.16 2.4413 3 1 0 4 37.29 5.21 2.4113 -1 5 1 4 38.67 7.95 2.3283 -3 3 1 4 38.98 1.19 2.3108 -1 1 3 4 41.23 2.76 2.1893 1 5 1 4 41.71 10.33 2.1657 0 6 0 2 42.23 1.66 2.1401 0 0 3 2 42.52 2.69 2.1260 -3 1 3 4 43.16 6.10 2.0961 2 4 1 4 44.13 2.21 2.0521 0 6 1 4 44.21 2.11 2.0488 -4 0 2 2 46.48 6.07 1.9539 -4 2 2 4 46.85 5.84 1.9391 2 2 2 4 48.08 1.27 1.8924 -3 5 1 4 48.62 6.79 1.8727 2 6 0 4 48.72 5.67 1.8691 -4 0 3 2 48.86 5.31 1.8642 4 0 0 2 49.70 4.19 1.8343 1 1 3 4 50.74 2.74 1.7992 -2 6 2 4 50.86 5.30 1.7953 0 6 2 4 50.96 3.29 1.7919 4 2 0 4 51.11 3.36 1.7872 0 4 3 4 51.15 13.01 1.7859 -2 0 4 2 52.83 4.68 1.7329 -4 4 2 4 52.87 2.07 1.7316 -4 4 1 4 53.17 5.04 1.7226 2 4 2 4 53.81 1.44 1.7036 1 3 3 4 54.33 1.60 1.6884 1 7 1 4 55.38 2.10 1.6589 -3 5 3 4 57.49 2.09 1.6030 3 5 1 4 58.29 1.62 1.5830 -5 1 3 4 58.38 1.18 1.5808 2 0 3 2 58.63 1.07 1.5746 0 8 1 4 58.88 1.58 1.5685 -4 2 4 4 59.02 1.80 1.5650 -2 4 4 4 59.30 1.57 1.5583 0 2 4 4 61.40 1.19 1.5099 -2 8 1 4 62.01 2.61 1.4966 -5 3 3 4 62.36 7.87 1.4891 2 8 0 4 62.43 2.16 1.4875 -4 6 1 4 62.70 1.38 1.4817 2 6 2 4 64.36 1.34 1.4475 -5 1 4 4 64.97 1.64 1.4354 1 1 4 4 65.69 2.60 1.4214 2 4 3 4 65.90 1.57 1.4175 1 9 0 4 66.92 1.13 1.3982 -5 5 2 4 67.89 2.33 1.3806 -6 0 2 2 68.12 2.79 1.3764 -4 0 5 2 68.38 2.45 1.3719 4 0 2 2 68.48 1.49 1.3701 1 3 4 4 68.93 1.51 1.3624 -1 1 5 4 70.33 2.48 1.3386 -1 9 2 4 72.35 1.71 1.3061 -1 3 5 4 73.15 1.53 1.2938 0 8 3 4 73.17 1.05 1.2935 5 5 0 4 73.43 1.27 1.2895 0 6 4 4 74.56 3.81 1.2728 -4 8 2 4 74.71 1.40 1.2706 -6 4 2 4 74.84 3.92 1.2687 2 8 2 4 75.18 1.29 1.2638 4 4 2 4 76.27 1.01 1.2484 -3 5 5 4 76.68 1.19 1.2428 6 0 0 2 76.96 1.25 1.2390 -5 3 5 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.