Povondraite Watenphul A, Burgdorf M, Schlüter J, Horn I, Malcherek T, Mihailova B American Mineralogist 101 (2016) 970-985 Exploring the potential of Raman spectroscopy for crystallochemical analyses of complex hydrous silicates: II. Tourmalines Note: Sample S33 Locality: Cristalmayu valley, Alto Chapare district, Cochabamba department, Bolivia _database_code_amcsd 0021212 CELL PARAMETERS: 16.2467 16.2467 7.4740 90.000 90.000 120.000 SPACE GROUP: R3m X-RAY WAVELENGTH: 1.541838 Cell Volume: 1708.496 Density (g/cm3): 3.331 MAX. ABS. INTENSITY / VOLUME**2: 12.39802218 RIR: 1.212 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.89 1.27 8.1234 1 1 0 6 13.41 51.62 6.6005 1 0 1 3 17.31 29.52 5.1227 0 2 1 3 18.92 35.36 4.6900 3 0 0 3 20.50 33.09 4.3331 2 1 1 6 21.88 55.35 4.0617 2 2 0 6 24.65 42.02 3.6118 0 1 2 3 25.75 11.82 3.4592 1 3 1 6 28.04 6.27 3.1827 4 0 1 3 29.08 4.39 3.0703 4 1 0 6 29.21 54.15 3.0576 1 2 2 6 30.16 7.32 2.9633 3 2 1 6 33.19 10.91 2.6990 3 1 2 6 34.04 100.00 2.6335 0 5 1 3 35.03 2.59 2.5613 0 4 2 3 35.85 6.58 2.5052 2 4 1 6 36.05 6.20 2.4913 0 0 3 1 36.79 19.87 2.4428 2 3 2 6 37.57 13.99 2.3939 5 1 1 6 38.39 4.90 2.3450 6 0 0 3 40.11 18.76 2.2480 5 0 2 3 40.84 2.99 2.2097 4 3 1 6 41.02 7.12 2.2002 0 3 3 3 41.02 10.01 2.2002 3 0 3 3 41.69 6.07 2.1665 4 2 2 6 42.57 8.82 2.1237 2 2 3 6 43.22 44.13 2.0934 1 5 2 6 43.90 5.89 2.0624 1 6 1 6 44.62 2.90 2.0308 4 4 0 6 46.15 24.79 1.9668 3 4 2 6 46.80 4.26 1.9410 3 5 1 6 46.80 1.08 1.9410 7 0 1 3 46.97 6.72 1.9346 1 4 3 6 48.20 3.47 1.8879 6 2 1 6 48.95 1.66 1.8608 6 1 2 6 49.73 2.65 1.8334 3 3 3 6 50.54 2.77 1.8059 0 2 4 3 51.56 2.34 1.7727 6 3 0 6 51.63 2.19 1.7702 5 3 2 6 52.23 3.09 1.7513 5 4 1 6 52.94 2.01 1.7296 2 6 2 6 53.68 13.15 1.7076 0 6 3 3 53.68 6.83 1.7076 6 0 3 3 54.80 12.20 1.6752 2 7 1 6 55.70 4.27 1.6501 4 0 4 3 56.65 13.41 1.6247 5 5 0 6 56.73 6.32 1.6228 4 5 2 6 56.94 2.67 1.6171 3 2 4 6 57.29 2.69 1.6082 8 1 1 6 58.51 4.39 1.5776 4 6 1 6 59.09 6.45 1.5633 9 0 0 3 59.16 5.58 1.5616 7 2 2 6 59.37 15.02 1.5566 0 5 4 3 59.71 1.84 1.5486 7 3 1 6 60.29 3.62 1.5352 8 2 0 6 60.57 5.35 1.5288 2 4 4 6 61.54 1.45 1.5069 1 8 2 6 61.74 11.91 1.5024 5 1 4 6 62.21 3.14 1.4923 1 7 3 6 62.48 3.91 1.4864 0 1 5 3 62.71 3.90 1.4817 6 4 2 6 63.79 5.80 1.4590 7 4 0 6 64.06 9.02 1.4535 4 3 4 6 64.38 8.04 1.4470 6 5 1 6 64.52 2.26 1.4444 3 6 3 6 64.52 4.12 1.4444 6 3 3 6 67.05 1.01 1.3959 3 1 5 6 67.77 6.78 1.3827 10 0 1 3 68.16 2.30 1.3757 0 4 5 3 68.38 3.69 1.3719 5 6 2 6 68.57 1.01 1.3685 7 0 4 3 68.57 3.02 1.3685 3 5 4 6 69.01 3.99 1.3609 5 5 3 6 69.27 2.85 1.3564 2 3 5 6 69.42 3.27 1.3539 6 6 0 6 69.68 1.03 1.3495 6 2 4 6 70.52 8.03 1.3355 10 1 0 6 70.58 2.17 1.3344 8 3 2 6 71.08 1.25 1.3263 5 7 1 6 71.21 2.27 1.3242 9 0 3 3 71.46 10.19 1.3201 5 0 5 3 71.67 1.08 1.3168 0 10 2 3 72.17 1.28 1.3089 8 4 1 6 72.29 2.90 1.3070 2 8 3 6 72.69 3.81 1.3008 9 3 0 6 72.95 2.41 1.2969 5 4 4 6 74.90 1.40 1.2677 7 5 2 6 75.39 2.75 1.2608 0 11 1 3 75.52 1.27 1.2590 7 4 3 6 75.77 1.01 1.2555 3 4 5 6 75.97 1.85 1.2526 4 8 2 6 76.46 1.05 1.2459 2 10 1 6 76.47 1.72 1.2457 0 0 6 1 77.53 1.05 1.2313 1 1 6 6 77.89 1.82 1.2265 6 1 5 6 79.62 3.39 1.2041 11 1 1 6 79.63 1.43 1.2039 3 0 6 3 81.83 4.45 1.1770 10 1 3 6 83.32 1.13 1.1598 1 11 2 6 83.92 2.28 1.1531 9 3 3 6 84.16 1.15 1.1504 4 5 5 6 85.88 1.03 1.1317 3 3 6 6 86.23 1.03 1.1280 7 2 5 6 86.61 1.81 1.1240 10 0 4 3 88.98 1.47 1.1001 0 6 6 3 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.