Fluor-tsilaisite Bosi F, Andreozzi G B, Agrosi G, Scandale E Mineralogical Magazine 79 (2015) 89-101 Fluor-tsilaisite, NaMn3Al6(Si6O18)(BO3)3(OH)3F, a new tourmaline from San Piero in Campo (Elba, Italy) and new data on tsilaisitic tourmaline from the holotype specimen locality Note: Sample CB1b, Split-site SREF Locality: Grotta d'Oggi, San Piero in Campo, Elba Island, Italy _database_code_amcsd 0020624 CELL PARAMETERS: 15.9619 15.9691 7.1426 90.000 90.000 120.000 SPACE GROUP: R3m X-RAY WAVELENGTH: 1.541838 Cell Volume: 1576.711 Density (g/cm3): 3.160 MAX. ABS. INTENSITY / VOLUME**2: 4.892145420 RIR: 0.504 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 13.96 82.10 6.3459 1 0 1 3 17.85 10.52 4.9681 0 2 1 3 17.86 10.51 4.9675 2 -2 1 3 17.86 10.51 4.9669 -2 0 1 3 19.25 7.74 4.6099 0 3 0 3 19.26 7.74 4.6088 -3 3 0 3 19.26 7.74 4.6078 3 0 0 3 21.06 48.01 4.2180 -2 3 1 6 21.07 47.99 4.2171 2 1 1 6 22.27 41.55 3.9923 -2 4 0 6 22.27 41.52 3.9914 2 2 0 6 22.28 41.50 3.9905 -4 2 0 6 25.77 97.38 3.4578 0 1 2 3 26.37 6.01 3.3793 1 3 1 6 26.38 6.00 3.3780 4 -3 1 6 28.12 1.70 3.1729 2 0 2 3 28.69 1.31 3.1120 0 -4 1 3 28.69 1.31 3.1114 -4 4 1 3 28.70 1.30 3.1109 4 0 1 3 29.60 6.98 3.0175 1 4 0 6 29.62 6.97 3.0164 4 1 0 6 30.32 100.00 2.9483 1 2 2 6 30.84 5.41 2.8995 -3 5 1 6 30.85 5.41 2.8985 3 2 1 6 34.31 6.26 2.6133 3 1 2 6 34.78 60.35 2.5793 0 5 1 3 34.79 60.32 2.5788 5 -5 1 3 34.80 60.28 2.5783 -5 0 1 3 36.16 1.21 2.4840 0 4 2 3 36.17 2.42 2.4835 4 -4 2 3 36.61 2.38 2.4545 2 4 1 6 36.63 2.38 2.4534 6 -4 1 6 37.79 11.78 2.3809 0 0 3 1 37.93 7.95 2.3719 -2 5 2 6 37.94 15.88 2.3713 2 3 2 6 38.37 9.08 2.3460 1 -6 1 6 38.38 18.15 2.3454 5 1 1 6 39.08 1.45 2.3049 0 6 0 3 39.09 1.45 2.3044 -6 6 0 3 39.10 1.45 2.3039 6 0 0 3 39.50 1.18 2.2815 1 1 3 6 40.75 1.53 2.2143 2 5 0 6 40.77 1.53 2.2134 5 2 0 6 41.29 24.21 2.1865 5 0 2 3 41.69 6.09 2.1664 -4 7 1 6 41.71 12.17 2.1656 4 3 1 6 42.75 9.04 2.1153 3 0 3 3 42.75 8.60 2.1152 0 3 3 3 42.88 1.51 2.1091 2 -6 2 6 42.89 7.56 2.1086 4 2 2 6 44.30 18.68 2.0446 2 2 3 6 44.43 22.06 2.0392 1 5 2 6 44.44 44.06 2.0385 6 -5 2 6 44.81 6.04 2.0227 1 6 1 6 44.83 6.03 2.0218 7 -6 1 6 45.44 1.80 1.9961 -4 8 0 6 45.46 3.59 1.9952 4 4 0 6 47.40 16.13 1.9179 -3 7 2 6 47.42 32.22 1.9173 3 4 2 6 47.76 2.38 1.9042 3 5 1 6 47.78 1.01 1.9038 7 0 1 3 47.79 2.37 1.9033 8 -5 1 6 48.73 13.33 1.8689 1 4 3 6 49.19 2.16 1.8523 2 -8 1 6 49.21 10.77 1.8516 6 2 1 6 49.79 1.25 1.8315 1 7 0 6 49.80 1.25 1.8309 7 1 0 6 50.25 1.96 1.8156 6 1 2 6 51.51 7.10 1.7741 3 3 3 6 51.61 3.39 1.7709 1 0 4 3 52.96 3.37 1.7289 0 2 4 3 52.98 2.09 1.7282 5 3 2 6 54.29 2.30 1.6897 2 6 2 6 54.32 2.30 1.6890 8 -6 2 6 55.50 6.94 1.6558 6 0 3 3 55.50 29.55 1.6556 0 6 3 3 55.92 11.78 1.6442 2 7 1 6 55.95 11.76 1.6434 9 -7 1 6 56.88 1.60 1.6187 1 3 4 6 57.73 9.59 1.5969 -5 10 0 6 57.76 19.14 1.5962 5 5 0 6 58.15 6.43 1.5865 4 0 4 3 58.15 1.39 1.5864 -4 9 2 6 58.17 2.77 1.5858 4 5 2 6 58.48 2.61 1.5782 8 1 1 6 59.40 2.75 1.5560 3 2 4 6 59.41 1.23 1.5557 8 0 2 3 59.71 2.29 1.5487 -4 10 1 6 59.74 4.56 1.5479 4 6 1 6 60.24 7.34 1.5363 9 0 0 3 60.65 7.76 1.5269 7 2 2 6 60.96 2.60 1.5198 7 3 1 6 61.46 3.24 1.5087 2 8 0 6 61.48 3.24 1.5082 8 2 0 6 61.85 24.18 1.5000 0 5 4 3 63.06 4.43 1.4742 2 4 4 6 63.08 1.60 1.4737 9 -8 2 6 64.16 1.12 1.4516 7 1 3 6 64.17 5.58 1.4514 1 7 3 6 64.25 1.61 1.4498 4 -10 2 6 64.25 28.84 1.4497 5 1 4 6 64.27 8.05 1.4493 6 4 2 6 65.04 2.28 1.4340 -4 11 0 6 65.07 4.55 1.4334 7 4 0 6 65.71 6.55 1.4210 0 1 5 3 65.72 3.83 1.4207 -6 11 1 6 65.75 7.65 1.4202 6 5 1 6 65.76 1.81 1.4201 10 -9 1 6 66.52 6.78 1.4057 6 3 3 6 66.52 2.23 1.4056 3 6 3 6 66.60 19.08 1.4041 4 3 4 6 68.04 1.27 1.3779 3 8 1 6 68.08 1.27 1.3772 11 -8 1 6 69.21 17.65 1.3575 10 0 1 3 70.05 2.21 1.3433 -5 11 2 6 70.08 4.42 1.3427 5 6 2 6 70.36 1.37 1.3381 9 2 1 6 70.80 1.97 1.3308 -6 12 0 6 70.84 3.93 1.3302 6 6 0 6 71.11 7.86 1.3258 5 5 3 6 71.18 1.31 1.3246 7 0 4 3 71.19 4.94 1.3245 3 5 4 6 71.46 4.60 1.3202 0 4 5 3 71.93 5.64 1.3127 1 10 0 6 71.97 11.25 1.3120 10 1 0 6 72.31 1.76 1.3067 6 2 4 6 72.33 3.69 1.3064 8 3 2 6 72.58 3.58 1.3025 2 3 5 6 72.62 1.51 1.3018 5 7 1 6 73.34 1.59 1.2909 9 0 3 3 73.42 1.01 1.2896 0 10 2 3 73.46 2.01 1.2891 10 -10 2 3 73.73 2.50 1.2850 8 4 1 6 74.16 2.40 1.2786 3 9 0 6 74.21 4.79 1.2779 9 3 0 6 74.47 3.97 1.2741 2 8 3 6 74.81 17.69 1.2692 5 0 5 3 75.65 5.34 1.2571 5 4 4 6 77.01 2.31 1.2382 0 11 1 3 77.05 4.61 1.2377 11 -11 1 3 77.77 1.78 1.2281 7 4 3 6 77.77 1.47 1.2280 4 7 3 6 77.87 1.96 1.2267 4 8 2 6 78.15 1.51 1.2230 12 -10 1 6 79.20 3.80 1.2094 3 4 5 6 80.02 1.01 1.1991 8 1 4 6 80.72 3.40 1.1904 0 0 6 1 81.37 1.60 1.1826 6 1 5 6 81.39 5.17 1.1823 11 1 1 6 82.19 1.20 1.1728 7 3 4 6 83.96 2.07 1.1526 3 0 6 3 84.26 10.49 1.1493 10 1 3 6 85.44 1.94 1.1363 1 11 2 6 86.41 3.19 1.1261 9 3 3 6 86.49 1.84 1.1252 1 9 4 6 88.25 2.21 1.1073 1 4 6 6 88.64 1.09 1.1035 3 8 4 6 88.88 1.08 1.1011 8 0 5 3 89.69 3.11 1.0932 10 0 4 3 89.95 1.49 1.0907 7 2 5 6 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.