Orthoclase Angel R J, Ross N L, Zhao J, Sochalski-Kolbus L, Kruger H, Schmidt B C European Journal of Mineralogy 25 (2013) 597-614 Structural controls on the anisotropy of tetrahedral frameworks: the example of monoclinic feldspars Note: T = 600 K, Sample H003 Locality: Unknown _database_code_amcsd 0020543 CELL PARAMETERS: 8.6159 12.9806 7.1991 90.000 115.956 90.000 SPACE GROUP: C2/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 723.930 Density (g/cm3): 2.542 MAX. ABS. INTENSITY / VOLUME**2: 5.516068166 RIR: 0.707 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 13.31 6.28 6.6522 1 1 0 4 13.64 9.78 6.4903 0 2 0 2 13.68 4.09 6.4729 0 0 1 2 15.09 12.80 5.8714 -1 1 1 4 19.37 1.21 4.5832 0 2 1 4 20.95 65.37 4.2407 -2 0 1 2 22.48 20.93 3.9553 1 1 1 4 22.96 4.92 3.8734 2 0 0 2 23.55 79.20 3.7776 1 3 0 4 24.62 15.72 3.6158 -1 3 1 4 25.08 10.58 3.5501 -2 2 1 4 25.69 50.94 3.4679 -1 1 2 4 26.80 100.00 3.3261 2 2 0 4 27.09 55.34 3.2917 -2 0 2 2 27.49 29.42 3.2452 0 4 0 2 27.56 79.60 3.2365 0 0 2 2 29.82 57.72 2.9961 1 3 1 4 30.45 8.66 2.9357 -2 2 2 4 30.82 24.28 2.9010 0 4 1 4 30.87 10.88 2.8963 0 2 2 4 31.94 2.22 2.8017 -3 1 1 4 32.36 18.06 2.7668 -1 3 2 4 34.34 20.26 2.6115 -3 1 2 4 34.65 2.38 2.5891 2 2 1 4 34.81 34.70 2.5772 -2 4 1 4 35.10 8.93 2.5567 1 1 2 4 35.44 9.44 2.5326 3 1 0 4 36.11 4.30 2.4875 2 4 0 4 37.23 7.86 2.4151 -1 5 1 4 37.61 10.08 2.3913 -3 3 1 4 38.73 4.98 2.3248 -1 1 3 4 39.71 1.70 2.2697 -3 3 2 4 41.00 2.95 2.2013 1 5 1 4 41.75 22.24 2.1634 0 6 0 2 42.44 8.84 2.1301 2 4 1 4 42.46 2.73 2.1289 -4 0 1 2 42.64 3.98 2.1204 -4 0 2 2 43.59 2.08 2.0764 2 0 2 2 43.61 1.58 2.0755 3 1 1 4 44.14 4.23 2.0519 0 6 1 4 44.98 11.90 2.0155 -4 2 2 4 45.89 11.05 1.9776 2 2 2 4 46.40 2.70 1.9571 -3 3 3 4 46.91 9.98 1.9367 4 0 0 2 47.21 2.60 1.9251 -3 5 1 4 47.41 4.57 1.9177 -4 0 3 2 48.12 1.08 1.8911 3 3 1 4 48.18 2.38 1.8888 2 6 0 4 49.04 5.24 1.8577 1 1 3 4 49.09 2.45 1.8558 4 2 0 4 49.54 1.38 1.8399 1 5 2 4 49.57 1.90 1.8391 -4 2 3 4 49.81 3.50 1.8308 3 5 0 4 50.48 3.44 1.8079 -2 6 2 4 50.74 18.85 1.7993 -2 0 4 2 50.76 8.52 1.7986 0 6 2 4 50.82 8.37 1.7967 0 4 3 4 51.33 4.88 1.7800 -4 4 1 4 51.48 1.98 1.7750 -4 4 2 4 52.31 3.22 1.7490 2 4 2 4 53.19 1.61 1.7220 1 3 3 4 53.71 1.90 1.7064 -5 1 2 4 54.77 4.73 1.6759 -3 5 3 4 55.77 3.03 1.6484 -1 7 2 4 56.31 5.53 1.6339 3 5 1 4 56.38 1.59 1.6320 -5 1 3 4 56.73 1.24 1.6226 0 8 0 2 57.79 4.86 1.5953 -4 2 4 4 58.81 4.85 1.5702 0 2 4 4 60.18 5.72 1.5377 -5 3 3 4 60.61 1.46 1.5277 0 6 3 4 61.07 5.83 1.5174 -4 6 1 4 62.01 17.45 1.4966 2 8 0 4 62.69 2.37 1.4821 -5 1 4 4 63.80 1.98 1.4588 -1 7 3 4 63.81 2.76 1.4587 5 3 0 4 63.97 1.03 1.4554 -2 8 2 4 64.14 3.17 1.4520 1 1 4 4 64.21 1.24 1.4505 0 8 2 4 64.59 1.34 1.4430 4 6 0 4 64.65 6.47 1.4416 2 4 3 4 64.99 1.57 1.4351 -4 6 3 4 65.01 2.58 1.4347 -5 5 2 4 65.01 5.16 1.4347 -6 0 2 2 65.87 1.14 1.4179 1 9 0 4 65.96 1.05 1.4163 3 5 2 4 66.19 5.42 1.4118 4 0 2 2 67.12 2.19 1.3946 -4 0 5 2 67.39 1.38 1.3896 -5 5 3 4 67.47 1.07 1.3881 -6 0 1 2 67.68 1.23 1.3844 1 3 4 4 67.73 2.34 1.3834 -2 6 4 4 68.43 1.14 1.3710 -1 1 5 4 68.86 1.71 1.3635 -4 2 5 4 69.21 1.75 1.3574 -6 2 1 4 70.32 3.69 1.3388 -1 9 2 4 70.67 2.07 1.3330 -6 0 4 2 70.82 1.02 1.3304 5 5 0 4 71.87 4.26 1.3137 -1 3 5 4 71.99 1.56 1.3118 5 3 1 4 72.10 1.46 1.3099 -5 1 5 4 72.17 1.17 1.3089 -2 4 5 4 72.49 1.92 1.3039 2 0 4 2 72.87 1.09 1.2981 0 10 0 2 72.95 1.45 1.2968 0 8 3 4 73.01 1.36 1.2958 0 6 4 4 73.32 1.65 1.2911 6 0 0 2 73.37 1.52 1.2905 -4 8 1 4 73.49 7.02 1.2886 -4 8 2 4 73.98 1.51 1.2813 -4 4 5 4 74.17 7.71 1.2785 2 8 2 4 74.32 2.03 1.2762 -6 4 1 4 74.85 1.90 1.2686 -3 9 2 4 75.47 2.25 1.2596 -5 3 5 4 75.68 2.57 1.2567 -3 5 5 4 79.35 1.27 1.2076 -2 10 2 4 83.70 2.87 1.1555 -4 8 4 4 84.57 3.01 1.1458 0 8 4 4 86.22 2.25 1.1281 4 4 3 4 87.83 1.00 1.1115 -1 9 4 4 88.71 1.23 1.1027 7 1 0 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.