Albite Winter J K, Ghose S, Okamura F P American Mineralogist 62 (1977) 921-931 A high-temperature study of the thermal expansion and the anisotropy of the sodium atom in low albite T = 500 deg C Note: this sample of feldspar is from Tiburon, Marin County, California, USA _database_code_amcsd 0000595 CELL PARAMETERS: 8.2060 12.8170 7.1690 94.000 116.400 87.700 SPACE GROUP: C-1 X-RAY WAVELENGTH: 1.541838 Cell Volume: 673.694 Density (g/cm3): 2.585 MAX. ABS. INTENSITY / VOLUME**2: 5.031285429 RIR: 0.634 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 13.81 13.56 6.4105 0 0 1 2 13.84 3.28 6.4002 1 1 0 2 13.85 8.91 6.3926 0 2 0 2 13.96 3.38 6.3441 -1 1 0 2 14.96 7.80 5.9220 -1 -1 1 2 15.80 5.79 5.6095 -1 1 1 2 21.91 100.00 4.0573 -2 0 1 2 22.95 16.04 3.8755 1 -1 1 2 23.36 43.65 3.8076 1 1 1 2 24.03 25.16 3.7032 1 3 0 2 24.24 15.35 3.6713 -1 -3 1 2 24.25 44.40 3.6706 -1 3 0 2 25.39 15.16 3.5075 -1 -1 2 2 25.43 5.82 3.5024 -2 -2 1 2 26.35 16.14 3.3829 -1 1 2 2 27.66 71.37 3.2255 -2 0 2 2 27.83 95.30 3.2053 0 0 2 2 27.88 35.23 3.2001 2 2 0 2 27.91 64.10 3.1963 0 4 0 2 28.13 37.24 3.1720 -2 2 0 2 30.06 25.01 2.9732 1 -3 1 2 30.18 14.55 2.9610 -2 -2 2 2 30.46 10.82 2.9343 0 -2 2 2 30.52 17.07 2.9291 0 -4 1 2 31.02 15.55 2.8830 1 3 1 2 31.52 3.39 2.8383 -1 -3 2 2 32.01 1.35 2.7964 0 4 1 2 33.83 9.45 2.6498 -1 3 2 2 34.89 17.76 2.5714 -2 -4 1 2 35.18 3.18 2.5509 -3 -1 2 2 35.57 1.37 2.5239 1 -1 2 2 35.75 1.93 2.5116 2 -2 1 2 36.00 2.05 2.4950 -3 1 2 2 36.20 1.17 2.4811 2 2 1 2 36.62 14.62 2.4542 -2 4 1 2 36.93 5.54 2.4339 -1 -5 1 2 37.09 5.19 2.4240 2 4 0 2 37.30 2.95 2.4107 3 1 0 2 37.35 1.10 2.4074 -1 5 0 2 37.45 3.92 2.4016 -3 1 0 2 37.48 3.34 2.3996 -2 4 0 2 38.55 9.74 2.3354 -3 -3 1 2 38.74 1.82 2.3241 -1 5 1 2 39.45 1.26 2.2843 -1 1 3 2 39.89 2.69 2.2602 -3 3 1 2 40.41 1.30 2.2322 1 -3 2 2 41.02 2.10 2.2004 0 4 2 2 41.07 1.19 2.1976 -2 4 2 2 41.23 3.73 2.1894 1 -5 1 2 42.37 1.36 2.1334 3 3 0 2 42.42 11.03 2.1309 0 6 0 2 42.46 3.60 2.1291 1 5 1 2 43.13 2.26 2.0976 -3 1 3 2 43.39 5.94 2.0853 2 -4 1 2 44.17 2.38 2.0506 2 4 1 2 44.67 1.59 2.0286 -4 0 2 2 44.89 1.70 2.0192 -4 0 1 2 45.30 1.31 2.0019 -1 3 3 2 45.53 1.20 1.9922 0 2 3 2 45.64 3.52 1.9879 0 6 1 2 46.30 1.57 1.9609 -4 -2 2 2 46.89 3.42 1.9377 2 -2 2 2 47.68 9.66 1.9074 -4 2 2 2 47.77 7.17 1.9038 2 2 2 2 47.88 1.78 1.8997 -3 -5 1 2 49.00 9.76 1.8589 -4 0 3 2 49.21 4.15 1.8516 2 6 0 2 49.60 1.41 1.8379 1 -1 3 2 49.61 9.21 1.8375 4 0 0 2 49.67 1.40 1.8357 -2 -6 2 2 49.68 7.25 1.8353 -2 6 0 2 49.94 4.03 1.8260 0 -4 3 2 50.01 5.96 1.8240 0 -6 2 2 50.28 1.09 1.8148 -4 -2 3 2 50.32 6.85 1.8134 1 1 3 2 51.09 17.52 1.7878 -2 0 4 2 51.62 2.44 1.7708 4 2 0 2 51.92 1.27 1.7612 -4 2 0 2 52.15 2.92 1.7537 -2 -2 4 2 52.24 5.29 1.7512 -4 -4 2 2 52.92 1.93 1.7303 -4 -4 1 2 52.96 2.42 1.7289 0 6 2 2 53.00 2.71 1.7279 2 -4 2 2 53.08 3.03 1.7253 -2 6 2 2 53.17 1.86 1.7228 1 -3 3 2 53.82 1.00 1.7032 -3 -5 3 2 54.23 2.04 1.6915 -2 2 4 2 54.46 1.37 1.6848 -4 4 1 2 54.61 3.42 1.6805 2 4 2 2 54.74 1.55 1.6768 -4 4 2 2 54.82 1.53 1.6745 -1 -7 2 2 57.68 1.51 1.5981 0 8 0 2 57.86 2.54 1.5937 -3 5 3 2 58.03 2.32 1.5893 -4 -2 4 2 58.08 1.55 1.5881 3 -5 1 2 58.50 1.06 1.5779 -5 1 1 2 58.56 2.60 1.5762 0 -2 4 2 58.69 2.67 1.5730 3 5 1 2 58.73 1.98 1.5722 0 -8 1 2 58.84 1.00 1.5695 2 0 3 2 59.24 1.70 1.5598 -5 1 3 2 60.11 1.47 1.5394 -4 2 4 2 60.17 1.11 1.5379 2 -2 3 2 61.13 1.67 1.5160 -2 4 4 2 61.32 2.67 1.5119 -2 -8 1 2 61.40 3.94 1.5099 -5 -3 3 2 62.42 1.04 1.4878 -4 -6 1 2 63.21 6.32 1.4711 2 8 0 2 63.41 2.46 1.4669 0 6 3 2 63.74 5.37 1.4601 -2 8 0 2 63.86 1.15 1.4577 -5 3 3 2 64.49 1.39 1.4450 -4 -6 3 2 64.51 3.82 1.4446 -4 6 1 2 64.66 3.73 1.4415 2 6 2 2 64.98 3.02 1.4353 -4 6 2 2 65.21 2.85 1.4306 2 -4 3 2 65.22 2.10 1.4305 -5 1 4 2 65.67 2.84 1.4218 1 1 4 2 65.76 1.24 1.4201 4 4 1 2 65.81 1.31 1.4192 -2 -6 4 2 66.86 2.29 1.3994 -5 -3 4 2 66.90 1.56 1.3986 4 6 0 2 66.96 1.56 1.3974 1 9 0 2 67.25 1.50 1.3921 -1 9 0 2 67.48 2.03 1.3880 2 4 3 2 67.68 2.85 1.3843 1 -3 4 2 68.15 3.16 1.3759 -4 0 5 2 68.78 2.66 1.3649 -4 -2 5 2 68.87 4.57 1.3634 -6 0 2 2 69.31 5.17 1.3558 4 0 2 2 69.46 3.19 1.3531 -1 1 5 2 69.47 3.65 1.3529 -1 -9 2 2 70.04 1.69 1.3433 -6 -2 2 2 70.90 2.99 1.3293 -1 -3 5 2 71.66 1.10 1.3170 0 -8 3 2 71.84 1.14 1.3140 -5 5 3 2 72.07 1.05 1.3105 -6 2 3 2 73.42 1.77 1.2897 -1 9 2 2 73.68 4.10 1.2857 -4 -8 2 2 74.17 1.13 1.2785 0 10 0 2 74.32 1.25 1.2763 2 0 4 2 74.68 3.76 1.2710 2 -8 2 2 74.70 1.04 1.2707 -6 -4 2 2 74.92 1.19 1.2675 -6 -4 3 2 75.55 1.53 1.2586 -5 -3 5 2 76.41 1.31 1.2465 0 6 4 2 76.43 1.12 1.2462 -4 6 4 2 76.84 1.71 1.2406 4 4 2 2 77.02 1.61 1.2381 -6 4 2 2 77.37 3.79 1.2334 2 8 2 2 77.41 1.07 1.2329 -4 4 5 2 77.84 3.23 1.2271 -4 8 2 2 78.00 2.86 1.2250 6 0 0 2 81.97 1.26 1.1754 -4 -8 4 2 82.11 1.68 1.1737 3 5 3 2 82.78 1.42 1.1660 0 -8 4 2 83.41 1.07 1.1587 1 -7 4 2 84.17 1.33 1.1502 -3 9 3 2 84.39 1.28 1.1478 6 4 0 2 84.42 1.22 1.1474 -2 6 5 2 85.11 1.14 1.1400 -6 4 0 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.