Olenite Diffraction data computed using the structure from the paper listed below, along with the cell parameters refined from the powder pattern for R070077 Ertl A, Hughes J M, Prowatke S, Rossman G R, London D, Fritz E A American Mineralogist 88 (2003) 1369-1376 Mn-rich tourmaline from Austria: structure, chemistry, optical spectra, and relations to synthetic solid solutions Sample BT from Eibenstein an der Thaya, Lower Austria CELL PARAMETERS: 15.92061 15.92061 7.129414 90.00000 90.00000 120.0000 SPACE GROUP: R3m X-RAY WAVELENGTH: 1.541838 2-THETA INTENSITY D-SPACING H K L 11.13 2.52 7.9603 1 1 0 13.99 34.89 6.3329 1 0 1 17.90 17.93 4.9559 0 2 1 19.32 12.47 4.5959 3 0 0 21.12 55.62 4.2071 2 1 1 22.34 70.80 3.9802 2 2 0 25.81 52.13 3.4512 0 1 2 26.45 8.29 3.3699 1 3 1 28.76 2.89 3.1032 4 0 1 29.69 8.95 3.0087 4 1 0 30.37 58.63 2.9422 1 2 2 30.92 6.14 2.8913 3 2 1 34.38 3.68 2.6075 3 1 2 34.88 100.00 2.5719 0 5 1 36.24 1.82 2.4779 0 4 2 36.71 2.29 2.4473 2 4 1 37.85 7.38 2.3765 0 0 3 38.02 12.78 2.3660 2 3 2 38.47 16.04 2.3392 5 1 1 39.19 2.17 2.2979 6 0 0 40.86 1.47 2.2078 5 2 0 41.38 12.38 2.1811 5 0 2 41.80 11.38 2.1601 4 3 1 42.82 5.13 2.1110 0 3 3 42.82 4.82 2.1110 3 0 3 42.98 5.47 2.1036 4 2 2 44.38 11.30 2.0404 2 2 3 44.53 35.45 2.0338 1 5 2 44.93 6.33 2.0167 1 6 1 45.56 3.24 1.9901 4 4 0 47.52 28.64 1.9127 3 4 2 47.89 2.25 1.8985 3 5 1 48.81 6.31 1.8649 1 4 3 49.32 7.35 1.8467 6 2 1 49.92 1.47 1.8262 7 1 0 50.36 1.04 1.8110 6 1 2 51.61 4.00 1.7703 3 3 3 51.69 1.86 1.7676 1 0 4 53.04 1.81 1.7256 0 2 4 53.10 1.31 1.7240 5 3 2 54.43 2.62 1.6849 2 6 2 55.61 16.23 1.6520 0 6 3 55.61 3.87 1.6520 6 0 3 56.07 13.75 1.6393 2 7 1 57.89 16.26 1.5921 5 5 0 58.25 3.27 1.5832 4 0 4 58.30 2.25 1.5820 4 5 2 58.62 1.45 1.5739 8 1 1 59.50 1.59 1.5528 3 2 4 59.87 3.65 1.5440 4 6 1 60.39 4.19 1.5320 9 0 0 60.79 4.57 1.5230 7 2 2 61.11 1.67 1.5158 7 3 1 61.62 3.65 1.5044 8 2 0 61.96 13.69 1.4969 0 5 4 63.17 2.43 1.4711 2 4 4 63.22 1.44 1.4701 1 8 2 64.29 3.32 1.4480 1 7 3 64.37 16.04 1.4466 5 1 4 64.41 5.34 1.4457 6 4 2 65.22 3.61 1.4297 7 4 0 65.81 3.55 1.4183 0 1 5 65.90 1.69 1.4165 1 9 1 65.90 6.01 1.4165 6 5 1 66.65 1.27 1.4024 3 6 3 66.65 3.86 1.4024 6 3 3 66.72 11.15 1.4011 4 3 4 68.23 1.44 1.3737 3 8 1 69.38 10.06 1.3537 10 0 1 70.23 3.42 1.3394 5 6 2 71.00 3.17 1.3267 6 6 0 71.25 4.35 1.3227 5 5 3 71.32 2.70 1.3216 3 5 4 71.57 2.65 1.3176 0 4 5 72.14 9.82 1.3087 10 1 0 72.45 1.07 1.3037 6 2 4 72.50 2.16 1.3030 8 3 2 72.70 1.97 1.2999 2 3 5 72.79 1.24 1.2985 5 7 1 73.62 1.58 1.2859 0 10 2 73.91 1.77 1.2816 8 4 1 74.38 3.95 1.2747 9 3 0 74.62 2.15 1.2711 2 8 3 74.93 9.59 1.2666 5 0 5 75.80 3.18 1.2543 5 4 4 77.23 3.89 1.2345 0 11 1 78.05 1.35 1.2236 4 8 2 78.33 1.33 1.2199 2 10 1 79.34 2.37 1.2069 3 4 5 80.84 1.90 1.1882 0 0 6 81.60 2.74 1.1791 11 1 1 84.09 1.16 1.1504 3 0 6 84.45 5.57 1.1463 10 1 3 85.64 1.03 1.1335 1 11 2 86.61 1.95 1.1233 9 3 3 88.39 1.20 1.1052 1 4 6 89.89 1.73 1.0906 10 0 4 89.89 1.73 1.0906 10 0 4 XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.