Vesuvianite Fitzgerald S, Rheingold A L, Leavens P B American Mineralogist 71 (1986) 1483-1488 Crystal structure of a non-P4/nnc vesuvianite from Asbestos, Quebec _database_code_amcsd 0001060 CELL PARAMETERS: 15.5040 15.5040 11.8080 90.000 90.000 90.000 SPACE GROUP: P4/n X-RAY WAVELENGTH: 1.541838 Cell Volume: 2838.336 Density (g/cm3): 3.339 MAX. ABS. INTENSITY / VOLUME**2: 8.386883399 RIR: 0.818 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.06 15.33 10.9630 1 1 0 4 9.41 4.29 9.3938 1 0 1 8 14.82 1.06 5.9790 2 1 1 8 15.01 10.04 5.9040 0 0 2 2 16.17 4.51 5.4815 2 2 0 4 17.06 1.03 5.1981 1 1 2 8 18.89 8.66 4.6969 2 0 2 8 22.00 1.10 4.0405 3 2 1 8 22.00 1.79 4.0405 2 3 1 8 22.13 11.32 4.0171 2 2 2 8 22.94 4.05 3.8760 4 0 0 4 24.36 1.20 3.6543 3 3 0 4 25.63 1.02 3.4759 3 2 2 8 25.70 4.03 3.4668 4 2 0 4 25.70 3.46 3.4668 2 4 0 4 27.53 8.32 3.2401 4 0 2 8 28.14 1.77 3.1716 4 1 2 8 29.09 4.82 3.0693 3 1 3 8 29.09 1.45 3.0693 1 3 3 8 29.37 8.13 3.0406 5 1 0 4 29.37 7.25 3.0406 1 5 0 4 29.79 5.25 2.9991 3 4 1 8 29.79 4.20 2.9991 4 3 1 8 29.89 5.43 2.9895 4 2 2 8 29.89 2.57 2.9895 2 4 2 8 30.28 51.19 2.9520 0 0 4 2 30.36 1.12 2.9445 1 5 1 8 30.80 2.02 2.9034 3 2 3 8 30.80 2.20 2.9034 2 3 3 8 31.38 3.76 2.8505 1 1 4 8 32.45 1.01 2.7587 2 0 4 8 32.62 43.89 2.7452 3 4 2 8 32.62 55.93 2.7452 4 3 2 8 32.67 24.89 2.7407 4 4 0 4 33.71 2.95 2.6589 5 3 0 4 33.71 3.32 2.6589 3 5 0 4 34.47 1.95 2.6016 4 2 3 8 34.51 38.30 2.5991 2 2 4 8 34.66 33.21 2.5877 5 2 2 8 34.66 26.55 2.5877 2 5 2 8 35.50 2.43 2.5290 3 1 4 8 35.50 1.63 2.5290 1 3 4 8 36.05 1.03 2.4915 6 1 1 8 36.66 19.14 2.4514 6 2 0 4 36.66 22.85 2.4514 2 6 0 4 36.90 7.56 2.4357 5 0 3 8 36.94 1.28 2.4337 2 3 4 8 37.37 1.14 2.4062 5 1 3 8 38.01 4.94 2.3672 6 0 2 8 38.33 8.44 2.3484 4 0 4 8 38.47 1.01 2.3401 6 1 2 8 38.47 1.64 2.3401 1 6 2 8 38.56 1.71 2.3347 1 0 5 8 38.75 1.33 2.3237 2 5 3 8 38.75 1.93 2.3237 5 2 3 8 38.78 4.28 2.3220 4 1 4 8 38.78 2.54 2.3220 1 4 4 8 39.23 5.42 2.2964 3 3 4 8 39.74 1.20 2.2682 6 3 1 8 39.74 2.39 2.2682 3 6 1 8 40.35 1.28 2.2355 2 1 5 8 40.96 2.97 2.2033 5 3 3 8 40.96 1.29 2.2033 3 5 3 8 41.17 2.00 2.1926 7 1 0 4 41.17 4.98 2.1926 1 7 0 4 41.48 4.49 2.1769 7 0 1 8 41.91 2.58 2.1557 7 1 1 8 41.91 3.33 2.1557 1 7 1 8 42.07 3.17 2.1480 3 0 5 8 42.27 1.22 2.1380 3 4 4 8 42.27 1.20 2.1380 4 3 4 8 42.49 7.86 2.1276 3 1 5 8 42.49 5.50 2.1276 1 3 5 8 42.75 4.14 2.1152 6 4 1 8 42.75 6.85 2.1152 4 6 1 8 43.49 3.73 2.0808 6 2 3 8 43.49 3.46 2.0808 2 6 3 8 43.90 1.82 2.0623 5 4 3 8 43.90 1.96 2.0623 4 5 3 8 44.06 1.64 2.0554 7 1 2 8 44.06 1.49 2.0554 1 7 2 8 44.50 2.87 2.0358 7 3 0 4 44.50 4.27 2.0358 3 7 0 4 44.87 3.67 2.0202 6 4 2 8 44.87 2.52 2.0202 4 6 2 8 45.20 3.58 2.0062 7 3 1 8 45.20 1.64 2.0062 3 7 1 8 45.51 4.92 1.9930 6 3 3 8 45.51 6.27 1.9930 3 6 3 8 46.38 2.47 1.9576 6 5 1 8 46.38 3.40 1.9576 5 6 1 8 46.72 1.05 1.9443 6 0 4 8 47.23 1.16 1.9246 3 7 2 8 47.47 2.17 1.9154 7 1 3 8 47.47 2.48 1.9154 1 7 3 8 47.68 4.34 1.9075 2 0 6 8 47.93 1.45 1.8980 7 4 1 8 48.06 1.05 1.8932 2 1 6 8 48.26 1.54 1.8859 2 6 4 8 48.41 3.28 1.8801 2 8 0 4 48.41 1.81 1.8801 8 2 0 4 48.45 2.15 1.8788 3 4 5 8 48.45 1.78 1.8788 5 0 5 8 48.83 1.37 1.8651 5 1 5 8 48.83 1.64 1.8651 1 5 5 8 50.98 1.33 1.7915 2 8 2 8 51.95 5.39 1.7602 7 1 4 8 51.95 8.19 1.7602 1 7 4 8 51.95 1.45 1.7602 5 5 4 8 52.12 1.10 1.7548 4 0 6 8 53.52 2.08 1.7121 9 1 0 4 53.52 1.98 1.7121 1 9 0 4 54.77 4.85 1.6759 7 3 4 8 54.77 6.16 1.6759 3 7 4 8 55.23 1.54 1.6632 4 8 2 8 55.23 1.54 1.6632 8 4 2 8 55.29 10.39 1.6616 3 4 6 8 55.29 13.81 1.6616 4 3 6 8 56.65 10.82 1.6247 5 2 6 8 56.65 10.51 1.6247 2 5 6 8 56.83 9.78 1.6201 8 0 4 8 56.94 15.10 1.6173 9 2 2 8 56.94 13.53 1.6173 2 9 2 8 58.33 1.73 1.5818 5 3 6 8 58.98 7.70 1.5661 7 7 0 4 59.33 4.66 1.5577 6 1 6 8 59.33 4.03 1.5577 1 6 6 8 59.50 9.73 1.5536 6 6 4 8 60.15 1.14 1.5383 7 5 4 8 60.15 2.10 1.5383 5 7 4 8 60.31 1.67 1.5346 6 2 6 8 60.53 1.04 1.5297 1 10 1 8 60.94 3.35 1.5203 10 2 0 4 60.94 2.37 1.5203 2 10 0 4 61.59 1.40 1.5059 5 9 0 4 61.59 1.97 1.5059 9 5 0 4 61.87 1.07 1.4996 10 0 2 8 61.93 1.39 1.4984 3 6 6 8 62.10 4.43 1.4948 4 8 4 8 62.10 3.33 1.4948 8 4 4 8 62.20 1.70 1.4926 10 1 2 8 62.97 4.98 1.4760 0 0 8 2 63.69 1.51 1.4612 6 7 4 8 65.86 1.21 1.4182 10 2 3 8 67.73 9.38 1.3835 7 7 4 8 68.47 1.85 1.3704 8 8 0 4 69.07 1.85 1.3598 11 3 0 4 69.07 1.23 1.3598 3 11 0 4 70.16 6.28 1.3414 9 5 4 8 70.16 4.75 1.3414 5 9 4 8 70.98 1.02 1.3278 5 1 8 8 70.98 1.47 1.3278 1 5 8 8 72.77 5.35 1.2995 4 4 8 8 73.24 3.19 1.2925 11 4 2 8 73.24 4.04 1.2925 4 11 2 8 74.17 3.61 1.2785 9 2 6 8 74.17 3.84 1.2785 2 9 6 8 74.91 1.07 1.2677 11 1 4 8 74.91 1.31 1.2677 1 11 4 8 75.13 3.34 1.2645 6 2 8 8 75.13 2.95 1.2645 2 6 8 8 75.59 1.53 1.2580 12 1 2 8 78.45 1.79 1.2191 4 12 1 8 78.45 1.29 1.2191 12 4 1 8 79.29 1.18 1.2083 3 4 9 8 88.24 1.48 1.1074 14 0 0 4 88.63 2.55 1.1035 4 3 10 8 88.63 2.02 1.1035 3 4 10 8 88.68 1.03 1.1030 7 11 4 8 88.68 1.08 1.1030 13 1 4 8 88.68 1.05 1.1030 1 13 4 8 89.10 2.54 1.0989 4 11 6 8 89.10 2.08 1.0989 11 4 6 8 89.77 1.86 1.0925 5 2 10 8 89.77 1.57 1.0925 2 5 10 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.