Tremolite Diffraction data computed using the structure from the paper listed below, along with the cell parameters refined from the powder pattern for R061087 Merli M, Ungaretti L, Oberti R American Mineralogist 85 (2000) 532-542 Leverage analysis and structure refinement of minerals Sample: from Val Tremola 9527 CELL PARAMETERS: 9.840295 18.05495 5.277591 90.00000 104.7539 90.00000 SPACE GROUP: C2/m X-RAY WAVELENGTH: 1.541838 2-THETA INTENSITY D-SPACING H K L 9.80 43.41 9.0275 0 2 0 10.51 68.32 8.4182 1 1 0 17.38 5.88 5.1036 0 0 1 17.43 14.49 5.0864 1 3 0 18.18 33.16 4.8786 -1 1 1 18.65 6.15 4.7579 2 0 0 19.67 24.88 4.5137 0 4 0 19.98 1.51 4.4428 0 2 1 21.10 9.11 4.2091 2 2 0 22.06 3.45 4.0294 -2 0 1 22.31 2.93 3.9844 1 1 1 22.94 25.37 3.8762 -1 3 1 26.36 53.10 3.3800 1 3 1 27.22 37.06 3.2746 2 4 0 28.56 63.39 3.1241 3 1 0 28.72 2.36 3.1077 2 0 1 29.53 1.82 3.0235 -3 1 1 29.71 1.10 3.0059 -2 4 1 30.38 6.56 2.9407 -1 5 1 30.41 39.95 2.9385 2 2 1 31.88 9.24 2.8061 3 3 0 32.76 23.14 2.7325 -3 3 1 33.10 100.00 2.7055 1 5 1 34.59 31.82 2.5921 0 6 1 35.15 9.23 2.5518 0 0 2 35.41 56.98 2.5335 -2 0 2 36.58 2.06 2.4556 0 2 2 36.83 2.82 2.4393 -2 2 2 37.28 4.45 2.4110 -2 6 1 37.31 1.05 2.4090 3 1 1 37.40 1.36 2.4033 -4 0 1 37.73 7.28 2.3831 3 5 0 38.49 34.67 2.3375 -3 5 1 38.75 15.97 2.3224 -4 2 1 39.17 17.87 2.2986 -1 7 1 39.58 18.64 2.2756 -3 1 2 39.98 1.14 2.2539 3 3 1 40.82 6.99 2.2093 -2 4 2 41.38 4.99 2.1809 1 7 1 41.68 1.65 2.1657 1 3 2 41.76 27.86 2.1618 2 6 1 42.13 3.06 2.1435 -3 3 2 42.41 3.14 2.1304 -1 5 2 44.32 16.11 2.0425 2 0 2 44.93 13.19 2.0164 3 5 1 44.97 8.67 2.0147 -4 0 2 45.29 6.91 2.0012 3 7 0 45.95 1.40 1.9740 -3 7 1 46.14 1.41 1.9663 -4 2 2 46.22 5.29 1.9630 1 9 0 46.90 3.71 1.9363 -3 5 2 47.14 1.65 1.9270 4 2 1 48.04 8.03 1.8927 5 1 0 48.45 1.88 1.8779 -4 6 1 48.80 11.60 1.8652 -1 9 1 48.92 2.81 1.8609 2 4 2 49.38 4.45 1.8444 -1 7 2 49.52 3.45 1.8398 -4 4 2 50.25 4.73 1.8146 5 3 0 50.52 1.88 1.8055 0 10 0 52.36 5.03 1.7465 -5 1 2 53.28 1.23 1.7182 -5 5 1 53.42 1.55 1.7141 -3 7 2 53.69 1.03 1.7062 3 3 2 53.83 2.25 1.7021 0 10 1 54.23 1.18 1.6905 0 8 2 54.41 7.19 1.6852 -2 8 2 54.46 7.35 1.6838 -1 3 3 54.64 1.05 1.6788 -3 9 1 54.89 6.48 1.6718 0 2 3 55.69 24.35 1.6496 4 6 1 56.14 7.37 1.6373 4 8 0 56.89 12.07 1.6175 1 11 0 58.13 3.98 1.5860 6 0 0 58.47 22.13 1.5776 -1 5 3 59.11 1.01 1.5621 6 2 0 59.31 1.31 1.5573 -5 7 1 59.45 5.07 1.5539 4 0 2 60.32 10.25 1.5334 -6 0 2 60.41 1.04 1.5314 5 7 0 61.01 4.24 1.5178 1 9 2 61.25 20.40 1.5123 -2 6 3 61.60 10.26 1.5046 0 12 0 61.68 2.74 1.5030 -4 8 2 61.75 5.00 1.5014 5 5 1 63.20 1.67 1.4703 -2 10 2 63.25 3.89 1.4692 4 4 2 63.38 1.62 1.4666 2 2 3 63.48 1.32 1.4646 3 7 2 63.81 4.11 1.4578 3 11 0 64.10 3.34 1.4519 -6 4 2 64.18 3.16 1.4503 -1 7 3 64.33 1.23 1.4471 -3 11 1 64.78 29.15 1.4382 -6 6 1 64.78 1.21 1.4382 4 10 0 64.97 1.07 1.4346 2 12 0 65.42 1.64 1.4258 -5 3 3 66.85 1.44 1.3987 6 2 1 68.79 11.55 1.3639 5 1 2 69.04 4.80 1.3596 -5 5 3 69.27 2.46 1.3556 7 1 0 70.18 7.44 1.3402 1 11 2 70.22 1.37 1.3394 -1 13 1 70.50 3.92 1.3348 -3 11 2 70.57 2.79 1.3338 5 3 2 70.63 5.04 1.3327 2 6 3 71.37 2.31 1.3208 -5 9 2 71.53 1.19 1.3182 -7 3 2 72.05 7.97 1.3099 -7 5 1 72.31 6.20 1.3058 -1 1 4 72.63 1.11 1.3009 -3 1 4 72.84 1.28 1.2976 6 8 0 72.94 6.76 1.2961 0 12 2 73.10 13.70 1.2937 -2 12 2 73.21 1.61 1.2921 -3 9 3 73.94 2.93 1.2811 6 6 1 74.05 1.66 1.2793 -1 3 4 74.07 1.07 1.2791 5 5 2 74.29 3.30 1.2759 0 0 4 74.37 1.55 1.2747 -3 3 4 74.91 5.02 1.2668 -4 0 4 77.24 1.02 1.2343 -7 7 1 77.52 1.38 1.2306 4 2 3 77.69 1.95 1.2283 -2 14 1 79.99 8.91 1.1987 -5 11 2 80.73 2.20 1.1895 8 0 0 83.13 1.62 1.1612 -8 4 2 83.18 4.64 1.1606 2 0 4 83.71 1.26 1.1546 1 15 1 84.28 1.55 1.1482 4 6 3 84.34 1.61 1.1475 2 10 3 85.95 1.14 1.1301 5 9 2 86.40 3.09 1.1254 7 9 0 86.74 1.21 1.1219 5 13 0 87.56 1.19 1.1135 5 3 3 87.74 2.06 1.1116 -6 4 4 88.25 1.35 1.1065 -7 7 3 88.25 1.35 1.1065 -7 7 3 XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.