Jimthompsonite Veblen D R, Burnham C W American Mineralogist 63 (1978) 1053-1073 New biopyriboles from Chester, Vermont: II. The crystal chemistry of jimthompsonite, clinojimthompsonite, and chesterite, and the amphibole-mica reaction _database_code_amcsd 0000687 CELL PARAMETERS: 18.6260 27.2300 5.2970 90.000 90.000 90.000 SPACE GROUP: Pbca X-RAY WAVELENGTH: 1.541838 Cell Volume: 2686.564 Density (g/cm3): 3.031 MAX. ABS. INTENSITY / VOLUME**2: 6.559681051 RIR: 0.705 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 6.49 61.92 13.6150 0 2 0 2 10.04 100.00 8.8119 2 1 0 4 13.00 15.25 6.8075 0 4 0 2 17.71 6.72 5.0081 1 1 1 8 17.97 4.01 4.9365 0 2 1 4 18.59 16.49 4.7718 1 2 1 8 18.88 8.78 4.7012 2 5 0 4 19.06 1.02 4.6565 4 0 0 2 19.55 5.99 4.5399 2 1 1 8 19.56 24.18 4.5383 0 6 0 2 20.15 10.07 4.4059 4 2 0 4 20.36 18.35 4.3617 2 2 1 8 21.25 3.34 4.1805 0 4 1 4 21.79 18.37 4.0790 1 4 1 8 22.30 3.23 3.9863 3 1 1 8 23.02 2.51 3.8640 3 2 1 8 23.14 6.38 3.8434 4 4 0 4 23.32 37.93 3.8139 2 4 1 8 23.92 1.89 3.7206 1 5 1 8 24.80 2.55 3.5895 2 7 0 4 25.33 2.64 3.5161 2 5 1 8 25.69 11.33 3.4677 3 4 1 8 26.18 2.24 3.4037 0 8 0 2 26.30 1.54 3.3889 1 6 1 8 27.33 19.43 3.2634 4 3 1 8 27.44 45.71 3.2501 4 6 0 4 27.54 1.82 3.2393 3 5 1 8 27.60 12.37 3.2322 2 6 1 8 28.70 4.03 3.1108 4 4 1 8 28.88 1.13 3.0919 1 7 1 8 28.95 76.16 3.0844 6 1 0 4 29.50 1.90 3.0282 5 1 1 8 29.65 6.00 3.0133 3 6 1 8 30.43 7.92 2.9373 6 3 0 4 30.96 19.08 2.8887 5 3 1 8 31.61 2.46 2.8303 1 8 1 8 32.18 3.99 2.7812 5 4 1 8 32.32 2.52 2.7702 4 6 1 8 32.59 2.62 2.7479 4 8 0 4 32.72 38.63 2.7371 2 8 1 8 33.22 8.81 2.6969 6 5 0 4 33.62 1.23 2.6654 6 1 1 8 34.12 1.24 2.6279 6 2 1 8 34.36 2.85 2.6101 1 1 2 8 34.48 28.09 2.6014 1 9 1 8 34.49 33.21 2.6003 3 8 1 8 34.93 5.93 2.5688 6 3 1 8 35.23 42.47 2.5475 2 0 2 4 35.48 2.91 2.5298 5 6 1 8 35.50 9.13 2.5285 2 9 1 8 36.85 15.41 2.4392 4 8 1 8 36.90 19.30 2.4361 3 0 2 4 37.05 1.76 2.4264 3 1 2 8 37.05 3.66 2.4264 6 7 0 4 37.45 3.74 2.4015 1 10 1 8 37.51 1.14 2.3980 3 2 2 8 38.29 1.57 2.3506 4 10 0 4 38.41 13.25 2.3438 2 10 1 8 39.13 2.75 2.3022 4 0 2 4 39.17 6.81 2.3001 7 3 1 8 39.27 4.53 2.2940 4 1 2 8 39.28 1.18 2.2937 3 4 2 8 39.38 8.34 2.2881 4 9 1 8 39.70 14.00 2.2703 5 8 1 8 39.72 2.36 2.2692 0 12 0 2 39.96 5.29 2.2562 3 10 1 8 40.51 1.50 2.2266 1 11 1 8 41.41 1.07 2.1803 2 11 1 8 41.85 20.15 2.1586 5 0 2 4 41.99 7.82 2.1518 5 1 2 8 42.05 3.14 2.1485 4 10 1 8 42.09 19.17 2.1470 5 9 1 8 42.10 2.29 2.1464 3 6 2 8 42.40 1.04 2.1319 5 2 2 8 42.64 2.31 2.1205 4 5 2 8 43.07 1.08 2.1000 5 3 2 8 43.62 4.89 2.0750 8 3 1 8 43.67 1.13 2.0729 1 12 1 8 44.33 2.02 2.0436 2 13 0 4 44.41 3.14 2.0399 4 12 0 4 44.51 2.11 2.0354 2 12 1 8 44.63 4.11 2.0304 5 10 1 8 45.22 11.86 2.0054 6 9 1 8 45.80 2.51 1.9812 4 7 2 8 46.59 6.33 1.9492 7 8 1 8 46.95 2.11 1.9354 6 11 0 4 48.50 6.61 1.8771 7 0 2 4 48.71 1.53 1.8695 7 9 1 8 49.02 4.48 1.8583 10 1 0 4 49.50 5.53 1.8415 6 6 2 8 50.21 3.42 1.8171 1 14 1 8 50.52 3.86 1.8065 8 8 1 8 50.97 3.67 1.7917 2 14 1 8 51.27 1.33 1.7818 2 15 0 4 51.88 2.19 1.7624 10 5 0 4 52.43 4.63 1.7450 8 1 2 8 52.52 7.77 1.7425 8 9 1 8 52.77 4.03 1.7346 7 6 2 8 52.88 1.07 1.7313 2 1 3 8 53.40 2.38 1.7159 1 12 2 8 53.62 4.37 1.7091 0 4 3 4 53.80 4.22 1.7039 2 3 3 8 54.13 5.21 1.6944 2 12 2 8 54.72 1.42 1.6773 9 8 1 8 55.33 1.18 1.6604 3 12 2 8 55.87 3.01 1.6455 0 6 3 4 56.12 1.37 1.6390 4 2 3 8 56.42 4.73 1.6307 9 0 2 4 56.54 4.14 1.6278 9 1 2 8 56.61 15.51 1.6257 9 9 1 8 56.64 3.04 1.6250 8 12 0 4 57.17 1.60 1.6112 4 15 1 8 57.43 1.42 1.6045 4 4 3 8 58.08 1.16 1.5882 3 13 2 8 58.47 9.20 1.5786 2 17 0 4 58.93 18.16 1.5673 0 8 3 4 59.16 2.08 1.5618 1 8 3 8 59.25 2.14 1.5595 5 15 1 8 59.56 5.37 1.5522 12 0 0 2 60.31 2.76 1.5347 9 6 2 8 60.96 4.36 1.5199 1 9 3 8 60.98 12.94 1.5195 10 9 1 8 61.25 1.29 1.5133 6 3 3 8 61.28 16.26 1.5128 0 18 0 2 61.63 15.91 1.5049 2 9 3 8 62.71 6.18 1.4815 0 10 3 4 63.87 1.31 1.4575 11 8 1 8 64.42 1.22 1.4464 7 12 2 8 64.52 3.36 1.4443 10 6 2 8 64.59 1.59 1.4429 7 15 1 8 65.42 5.23 1.4266 11 0 2 4 65.52 6.45 1.4247 11 1 2 8 65.58 3.42 1.4234 6 17 0 4 65.59 18.99 1.4233 11 9 1 8 67.81 1.02 1.3820 8 15 1 8 68.56 8.83 1.3687 6 9 3 8 68.80 2.12 1.3646 12 8 1 8 70.34 3.99 1.3384 3 17 2 8 70.39 6.65 1.3375 12 1 2 8 70.46 11.56 1.3364 12 9 1 8 70.92 2.78 1.3288 14 1 0 4 71.41 2.07 1.3209 1 0 4 4 71.51 1.92 1.3194 1 1 4 8 72.03 2.50 1.3111 2 0 4 4 72.13 1.03 1.3095 2 1 4 8 72.27 1.06 1.3073 0 14 3 4 72.70 14.94 1.3007 2 18 2 8 72.72 2.43 1.3004 12 5 2 8 72.73 2.14 1.3002 8 8 3 8 73.06 3.64 1.2951 3 0 4 4 73.64 1.05 1.2863 5 17 2 8 73.72 7.87 1.2851 3 18 2 8 73.98 1.73 1.2813 13 8 1 8 74.49 4.31 1.2737 4 0 4 4 74.83 2.37 1.2688 10 3 3 8 74.85 2.04 1.2685 8 18 0 4 74.87 1.63 1.2683 1 6 4 8 75.54 1.53 1.2587 4 14 3 8 75.86 1.58 1.2542 2 15 3 8 76.32 1.45 1.2478 5 0 4 4 76.97 2.47 1.2388 5 18 2 8 81.12 1.48 1.1855 7 0 4 4 81.49 2.98 1.1811 8 17 2 8 81.59 1.85 1.1799 10 9 3 8 81.76 1.37 1.1779 7 18 2 8 82.94 1.56 1.1641 16 0 0 2 84.09 1.80 1.1511 8 0 4 4 84.85 4.27 1.1427 9 17 2 8 85.49 1.06 1.1358 10 19 0 4 86.70 1.57 1.1230 14 13 0 4 87.53 1.16 1.1145 9 1 4 8 88.07 3.65 1.1091 9 18 2 8 88.13 1.57 1.1084 8 19 2 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.