Tainiolite Diffraction data computed using the structure from the paper listed below, along with the cell parameters refined from the powder pattern for R061070 Toraya H, Iwai S, Marumo F, Hirao M Zeitschrift fur Kristallographie 146 (1977) 73-83 The crystal structure of taeniolite, KLiMg2Si4O10F2 Note: this is the 1M polytype Locality: synthetic CELL PARAMETERS: 5.231000 9.065000 10.14000 90.00000 99.86000 90.00000 SPACE GROUP: C2/m X-RAY WAVELENGTH: 1.541838 2-THETA INTENSITY D-SPACING H K L 8.86 56.94 9.9910 0 0 1 17.76 22.84 4.9955 0 0 2 19.62 19.06 4.5247 0 2 0 19.81 30.84 4.4826 1 1 0 20.45 7.40 4.3435 -1 1 1 22.94 23.99 3.8760 1 1 1 24.58 64.71 3.6207 -1 1 2 26.58 100.00 3.3536 0 2 2 26.76 47.80 3.3303 0 0 3 28.70 94.66 3.1099 1 1 2 30.92 65.92 2.8917 -1 1 3 33.40 29.95 2.6821 0 2 3 34.43 51.52 2.6041 1 3 0 34.33 25.56 2.6110 -2 0 1 34.82 57.14 2.5760 -1 3 1 34.76 28.79 2.5801 2 0 0 35.94 9.56 2.4979 1 1 3 35.94 2.81 2.4978 0 0 4 36.40 9.98 2.4674 1 3 1 36.28 5.09 2.4755 -2 0 2 37.48 32.12 2.3987 2 0 1 37.50 64.62 2.3975 -1 3 2 38.49 1.31 2.3380 -1 1 4 39.83 7.31 2.2623 0 4 0 39.85 13.48 2.2615 -2 2 1 40.22 12.25 2.2413 2 2 0 40.43 1.44 2.2300 1 3 2 40.88 10.26 2.2065 0 4 1 41.57 9.16 2.1717 -2 2 2 42.12 16.33 2.1447 2 0 2 42.10 32.92 2.1453 -1 3 3 42.64 6.89 2.1193 2 2 1 43.91 4.38 2.0608 0 4 2 45.18 1.20 2.0058 -2 2 3 45.37 25.19 1.9982 0 0 5 46.08 13.89 1.9689 1 3 3 45.92 7.04 1.9753 -2 0 4 48.18 1.06 1.8877 -1 3 4 48.63 1.37 1.8714 0 4 3 50.38 3.67 1.8103 -2 2 4 52.54 5.01 1.7410 2 2 3 52.96 4.27 1.7281 1 3 4 52.79 2.13 1.7332 -2 0 5 53.39 1.86 1.7153 -3 1 1 53.64 1.56 1.7079 1 5 0 53.57 1.52 1.7098 -2 4 1 54.71 3.27 1.6768 0 4 4 55.04 1.81 1.6675 1 5 1 54.95 1.16 1.6700 -2 4 2 55.46 20.35 1.6558 2 0 4 55.40 40.51 1.6575 -1 3 5 55.83 5.16 1.6458 2 4 1 55.84 4.02 1.6454 -1 5 2 56.76 7.79 1.6210 3 1 1 56.66 8.53 1.6236 -3 1 3 56.86 1.09 1.6185 -2 2 5 58.05 9.07 1.5882 1 5 2 57.93 8.61 1.5909 -2 4 3 59.34 7.12 1.5564 2 4 2 59.33 6.98 1.5567 -1 5 3 60.84 16.38 1.5218 1 3 5 60.77 3.41 1.5233 3 1 2 60.66 8.09 1.5258 -2 0 6 60.63 3.51 1.5265 -3 1 4 61.44 19.40 1.5082 0 6 0 61.28 38.78 1.5117 -3 3 1 62.21 4.21 1.4913 0 6 1 62.08 4.13 1.4942 3 3 0 62.04 4.27 1.4952 -3 3 2 62.33 1.53 1.4889 1 1 6 62.50 1.07 1.4852 1 5 3 62.37 1.10 1.4880 -2 4 4 63.57 2.01 1.4626 -1 3 6 64.40 2.71 1.4458 -2 2 6 65.34 1.68 1.4273 0 0 7 65.51 2.30 1.4239 -1 1 7 67.30 4.42 1.3904 2 2 5 68.95 2.06 1.3612 0 2 7 69.61 20.98 1.3499 1 3 6 69.42 10.52 1.3531 -2 0 7 70.13 6.22 1.3411 0 4 6 72.30 12.85 1.3060 -2 6 1 72.13 6.47 1.3088 -4 0 1 72.43 1.28 1.3040 1 1 7 72.56 13.26 1.3021 2 6 0 72.33 6.51 1.3055 -4 0 2 72.73 1.94 1.2995 2 0 6 72.63 3.87 1.3009 -1 3 7 72.93 6.70 1.2964 -2 2 7 73.27 4.97 1.2911 0 6 4 73.21 4.95 1.2920 3 3 3 73.04 4.97 1.2946 -3 3 5 74.23 8.47 1.2768 2 6 1 73.97 4.31 1.2807 -4 0 3 76.05 4.64 1.2507 -2 6 3 75.96 2.32 1.2519 4 0 1 76.17 6.13 1.2490 2 2 6 76.18 3.56 1.2489 0 0 8 77.67 1.73 1.2287 -1 7 2 77.40 1.17 1.2323 -4 2 3 78.45 2.39 1.2184 3 5 1 78.36 2.88 1.2195 -3 5 3 79.29 1.13 1.2075 1 3 7 79.32 3.84 1.2071 0 4 7 79.55 2.71 1.2043 1 7 2 79.36 3.05 1.2066 4 2 1 79.55 2.90 1.2043 3 3 4 79.58 2.87 1.2038 0 6 5 79.34 2.83 1.2069 -3 3 6 80.66 2.32 1.1904 -1 7 3 80.38 2.19 1.1939 -4 2 4 81.69 1.64 1.1780 2 6 3 81.92 1.06 1.1752 3 5 2 81.80 1.09 1.1767 -3 5 4 82.45 1.48 1.1690 -2 2 8 86.27 1.07 1.1268 2 4 6 86.18 1.02 1.1278 -1 5 7 87.41 9.92 1.1150 2 6 4 87.03 4.95 1.1188 -4 0 6 87.03 4.95 1.1188 -4 0 6 XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.