Vesuvianite Pavese A, Prencipe M, Tribaudino M The Canadian Mineralogist 36 (1998) 1029-1037 X-ray and neutron single-crystal study of P4/n vesuvianite Sample: neutron _database_code_amcsd 0005551 CELL PARAMETERS: 15.5320 15.5320 11.8210 90.000 90.000 90.000 SPACE GROUP: P4/n X-RAY WAVELENGTH: 1.541838 Cell Volume: 2851.734 Density (g/cm3): 3.383 MAX. ABS. INTENSITY / VOLUME**2: 8.316783560 RIR: 0.801 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.05 3.19 10.9828 1 1 0 4 9.40 1.68 9.4066 1 0 1 8 14.99 10.55 5.9105 0 0 2 2 16.14 1.09 5.4914 2 2 0 4 17.04 2.46 5.2047 1 1 2 8 18.87 3.71 4.7033 2 0 2 8 22.10 12.68 4.0230 2 2 2 8 22.90 1.51 3.8830 4 0 0 4 23.55 1.11 3.7776 1 3 2 8 25.59 1.30 3.4813 3 2 2 8 25.65 6.97 3.4731 2 4 0 4 25.65 6.12 3.4731 4 2 0 4 27.48 9.87 3.2453 4 0 2 8 29.05 4.52 3.0735 3 1 3 8 29.05 1.84 3.0735 1 3 3 8 29.32 5.27 3.0461 5 1 0 4 29.32 5.62 3.0461 1 5 0 4 29.74 4.62 3.0044 4 3 1 8 29.74 4.57 3.0044 3 4 1 8 29.84 2.30 2.9944 2 4 2 8 29.84 2.20 2.9944 4 2 2 8 30.24 50.38 2.9553 0 0 4 2 30.75 2.77 2.9075 3 2 3 8 30.75 2.66 2.9075 2 3 3 8 31.35 3.51 2.8537 1 1 4 8 32.41 1.36 2.7620 2 0 4 8 32.56 49.25 2.7498 3 4 2 8 32.56 50.75 2.7498 4 3 2 8 32.61 28.38 2.7457 4 4 0 4 33.65 1.79 2.6637 5 3 0 4 33.65 1.93 2.6637 3 5 0 4 34.42 2.14 2.6054 4 2 3 8 34.46 38.14 2.6023 2 2 4 8 34.60 31.59 2.5921 5 2 2 8 34.60 29.02 2.5921 2 5 2 8 35.45 1.92 2.5322 3 1 4 8 35.45 1.96 2.5322 1 3 4 8 35.98 1.13 2.4959 6 1 1 8 35.98 1.03 2.4959 1 6 1 8 36.59 23.57 2.4558 6 2 0 4 36.59 23.39 2.4558 2 6 0 4 36.84 8.80 2.4395 5 0 3 8 36.88 1.68 2.4369 3 2 4 8 37.31 1.19 2.4099 5 1 3 8 37.86 1.08 2.3762 5 4 1 8 37.95 6.74 2.3712 6 0 2 8 38.27 8.10 2.3516 4 0 4 8 38.40 1.11 2.3441 6 1 2 8 38.40 1.42 2.3441 1 6 2 8 38.52 2.77 2.3373 1 0 5 8 38.69 1.61 2.3274 5 2 3 8 38.69 1.63 2.3274 2 5 3 8 38.73 2.78 2.3251 4 1 4 8 38.73 4.47 2.3251 1 4 4 8 39.18 4.79 2.2995 3 3 4 8 39.67 2.05 2.2722 6 3 1 8 39.67 2.02 2.2722 3 6 1 8 40.30 1.69 2.2381 2 1 5 8 40.30 1.79 2.2381 1 2 5 8 40.89 1.54 2.2068 5 3 3 8 40.89 2.88 2.2068 3 5 3 8 41.09 4.46 2.1966 7 1 0 4 41.09 4.57 2.1966 1 7 0 4 41.40 4.42 2.1808 7 0 1 8 41.83 3.35 2.1596 7 1 1 8 41.83 2.76 2.1596 1 7 1 8 42.01 1.98 2.1506 3 0 5 8 42.21 1.69 2.1411 3 4 4 8 42.43 6.40 2.1303 3 1 5 8 42.43 7.61 2.1303 1 3 5 8 42.67 5.61 2.1190 6 4 1 8 42.67 5.09 2.1190 4 6 1 8 43.42 2.76 2.0842 6 2 3 8 43.42 4.88 2.0842 2 6 3 8 43.83 1.96 2.0657 5 4 3 8 43.83 1.72 2.0657 4 5 3 8 43.86 1.15 2.0641 2 5 4 8 43.98 2.05 2.0590 7 1 2 8 43.98 2.13 2.0590 1 7 2 8 44.42 4.26 2.0395 7 3 0 4 44.42 4.39 2.0395 3 7 0 4 44.78 2.27 2.0237 6 4 2 8 44.78 2.26 2.0237 4 6 2 8 45.11 2.45 2.0098 7 3 1 8 45.11 2.90 2.0098 3 7 1 8 45.43 5.42 1.9962 6 3 3 8 45.43 5.32 1.9962 3 6 3 8 46.30 2.94 1.9611 6 5 1 8 46.30 2.77 1.9611 5 6 1 8 46.64 1.21 1.9472 6 0 4 8 47.03 1.14 1.9321 1 6 4 8 47.14 1.39 1.9279 7 3 2 8 47.14 1.35 1.9279 3 7 2 8 47.38 1.95 1.9186 7 1 3 8 47.38 3.16 1.9186 1 7 3 8 47.62 3.82 1.9097 2 0 6 8 47.84 1.07 1.9014 7 4 1 8 47.84 1.12 1.9014 4 7 1 8 48.00 1.30 1.8954 2 1 6 8 48.18 1.13 1.8888 6 2 4 8 48.18 1.06 1.8888 2 6 4 8 48.32 3.23 1.8835 2 8 0 4 48.32 3.33 1.8835 8 2 0 4 48.38 1.12 1.8813 3 4 5 8 48.38 2.50 1.8813 5 0 5 8 48.38 1.01 1.8813 4 3 5 8 48.76 1.41 1.8677 5 1 5 8 48.76 1.99 1.8677 1 5 5 8 51.86 6.45 1.7629 7 1 4 8 51.86 6.44 1.7629 1 7 4 8 51.86 1.24 1.7629 5 5 4 8 52.05 1.21 1.7570 4 0 6 8 52.32 1.11 1.7485 6 6 2 8 53.42 1.72 1.7152 9 1 0 4 53.42 1.77 1.7152 1 9 0 4 54.68 5.06 1.6785 7 3 4 8 54.68 5.14 1.6785 3 7 4 8 55.12 1.80 1.6661 4 8 2 8 55.12 1.78 1.6661 8 4 2 8 55.21 10.77 1.6638 3 4 6 8 55.21 13.29 1.6638 4 3 6 8 56.57 12.03 1.6268 5 2 6 8 56.57 9.77 1.6268 2 5 6 8 56.73 9.45 1.6227 8 0 4 8 56.83 13.78 1.6202 9 2 2 8 56.83 14.07 1.6202 2 9 2 8 58.86 6.78 1.5690 7 7 0 4 59.24 3.82 1.5598 6 1 6 8 59.24 4.85 1.5598 1 6 6 8 59.39 8.95 1.5561 6 6 4 8 60.05 1.55 1.5407 5 7 4 8 60.05 1.64 1.5407 7 5 4 8 60.22 1.39 1.5368 6 2 6 8 60.22 1.28 1.5368 2 6 6 8 60.82 3.11 1.5230 2 10 0 4 60.82 3.02 1.5230 10 2 0 4 61.46 1.88 1.5086 5 9 0 4 61.46 1.92 1.5086 9 5 0 4 61.83 1.52 1.5005 3 6 6 8 61.98 3.80 1.4972 4 8 4 8 61.98 3.82 1.4972 8 4 4 8 62.07 1.44 1.4952 10 1 2 8 62.07 1.42 1.4952 1 10 2 8 62.90 4.83 1.4776 0 0 8 2 63.57 1.05 1.4636 7 6 4 8 65.73 1.22 1.4206 10 2 3 8 67.60 9.75 1.3858 7 7 4 8 68.33 1.92 1.3728 8 8 0 4 68.93 1.36 1.3622 11 3 0 4 68.93 1.35 1.3622 3 11 0 4 70.02 5.45 1.3437 9 5 4 8 70.02 5.19 1.3437 5 9 4 8 70.88 1.10 1.3295 5 1 8 8 70.88 1.14 1.3295 1 5 8 8 72.67 5.23 1.3012 4 4 8 8 73.08 3.45 1.2948 11 4 2 8 73.08 3.31 1.2948 4 11 2 8 74.04 3.16 1.2804 9 2 6 8 74.04 3.88 1.2804 2 9 6 8 74.76 1.21 1.2698 1 11 4 8 74.76 1.26 1.2698 11 1 4 8 75.02 3.07 1.2661 6 2 8 8 75.02 2.98 1.2661 2 6 8 8 75.43 1.27 1.2602 12 1 2 8 75.43 1.10 1.2602 1 12 2 8 78.28 1.52 1.2213 4 12 1 8 78.28 1.58 1.2213 12 4 1 8 79.17 1.04 1.2098 3 4 9 8 88.04 1.63 1.1094 14 0 0 4 88.50 2.18 1.1048 4 3 10 8 88.50 2.39 1.1048 3 4 10 8 88.93 2.46 1.1006 11 4 6 8 88.93 2.02 1.1006 4 11 6 8 89.63 1.81 1.0938 2 5 10 8 89.63 1.69 1.0938 5 2 10 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.