Pumpellyite-(Al) Hamada M, Akasaka M, Seto S, Makino K American Mineralogist 95 (2010) 1294-1304 Crystal chemistry of chromian pumpellyite from Osayama, Okayama Prefecture, Japan Locality: Osayama ultramafic body, Okayama, Japan Sample: ocp1028 _database_code_amcsd 0017599 CELL PARAMETERS: 19.1050 5.9021 8.8143 90.000 97.513 90.000 SPACE GROUP: C2/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 985.365 Density (g/cm3): 3.230 MAX. ABS. INTENSITY / VOLUME**2: 6.861981773 RIR: 0.692 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.34 1.46 9.4705 2 0 0 2 10.12 4.39 8.7386 0 0 1 2 12.85 2.10 6.8867 -2 0 1 2 14.66 3.74 6.0407 2 0 1 2 18.40 10.68 4.8219 -1 1 1 4 18.74 13.82 4.7352 4 0 0 2 19.07 48.48 4.6540 1 1 1 4 20.13 3.36 4.4119 -4 0 1 2 20.32 10.10 4.3693 0 0 2 2 21.25 2.85 4.1808 -2 0 2 2 22.16 4.70 4.0113 -3 1 1 4 22.50 2.10 3.9525 4 0 1 2 23.51 36.83 3.7837 2 0 2 2 23.81 4.14 3.7364 3 1 1 4 25.30 1.81 3.5198 -1 1 2 4 25.87 7.55 3.4434 -4 0 2 2 26.29 3.82 3.3896 1 1 2 4 27.74 1.81 3.2159 -3 1 2 4 28.27 1.06 3.1568 6 0 0 2 28.73 4.59 3.1070 -5 1 1 4 29.58 12.24 3.0204 4 0 2 2 30.29 23.15 2.9511 0 2 0 2 30.40 6.22 2.9405 3 1 2 4 30.69 16.84 2.9129 0 0 3 2 30.90 100.00 2.8942 5 1 1 4 30.92 14.84 2.8925 -2 0 3 2 31.76 8.19 2.8174 2 2 0 4 32.01 9.95 2.7959 0 2 1 4 32.75 37.74 2.7342 -6 0 2 2 32.91 5.04 2.7219 -5 1 2 4 33.02 6.54 2.7125 -2 2 1 4 33.34 2.69 2.6872 2 0 3 2 33.80 7.25 2.6516 2 2 1 4 34.09 43.61 2.6297 -1 1 3 4 35.23 2.93 2.5475 1 1 3 4 35.86 42.33 2.5045 4 2 0 4 36.64 3.80 2.4529 -4 2 1 4 36.68 4.22 2.4502 5 1 2 4 36.75 12.09 2.4455 0 2 2 4 36.76 29.59 2.4447 -7 1 1 4 37.30 3.85 2.4109 -2 2 2 4 38.06 2.10 2.3646 -8 0 1 2 38.69 22.26 2.3270 2 2 2 4 38.82 13.01 2.3195 3 1 3 4 39.21 1.03 2.2975 7 1 1 4 39.54 8.64 2.2789 -5 1 3 4 40.25 4.71 2.2407 -4 2 2 4 40.91 23.93 2.2060 -8 0 2 2 41.17 8.45 2.1925 -2 0 4 2 41.33 5.01 2.1847 0 0 4 2 41.91 12.50 2.1558 6 2 0 4 42.27 3.90 2.1379 -6 2 1 4 42.84 21.27 2.1108 4 2 2 4 43.28 6.48 2.0904 -4 0 4 2 43.66 4.51 2.0731 0 2 3 4 43.72 4.51 2.0703 2 0 4 2 43.83 3.05 2.0657 -2 2 3 4 43.86 3.44 2.0642 -1 1 4 4 44.16 1.31 2.0509 6 2 1 4 44.37 1.43 2.0415 5 1 3 4 45.21 8.24 2.0056 -6 2 2 4 45.34 4.07 2.0001 -7 1 3 4 47.41 5.36 1.9176 -6 0 4 2 47.77 3.91 1.9041 1 3 1 4 47.81 1.37 1.9024 -5 1 4 4 48.03 2.01 1.8941 10 0 0 2 48.31 1.26 1.8838 9 1 1 4 48.36 4.23 1.8822 3 1 4 4 48.74 6.72 1.8682 6 2 2 4 49.22 1.26 1.8512 -3 3 1 4 49.35 13.46 1.8467 8 2 0 4 49.39 1.99 1.8453 -8 2 1 4 49.62 2.57 1.8373 4 2 3 4 50.36 1.20 1.8119 -6 2 3 4 52.62 5.03 1.7393 -7 1 4 4 52.93 1.81 1.7299 8 0 3 2 53.38 5.84 1.7162 5 1 4 4 53.74 8.69 1.7058 -4 2 4 4 54.08 3.76 1.6957 6 0 4 2 54.11 1.26 1.6948 2 2 4 4 54.19 7.96 1.6926 5 3 1 4 54.20 1.62 1.6923 -10 0 3 2 54.89 3.85 1.6725 -3 1 5 4 55.24 6.42 1.6628 -11 1 1 4 55.33 5.62 1.6604 10 0 2 2 56.28 11.76 1.6346 -1 3 3 4 57.85 2.49 1.5940 10 2 0 4 57.90 40.25 1.5927 4 2 4 4 58.06 1.03 1.5886 5 3 2 4 58.12 2.97 1.5871 -7 3 1 4 58.47 13.23 1.5784 12 0 0 2 58.65 1.23 1.5741 4 0 5 2 58.93 2.49 1.5672 -9 1 4 4 59.50 16.64 1.5535 -10 2 2 4 59.60 1.10 1.5513 3 3 3 4 59.62 1.44 1.5507 -12 0 2 2 60.12 3.29 1.5390 -5 3 3 4 60.14 2.92 1.5385 10 2 1 4 61.32 2.08 1.5118 -2 2 5 4 61.39 6.35 1.5102 8 0 4 2 61.68 1.19 1.5038 0 2 5 4 61.82 2.03 1.5008 10 0 3 2 62.45 18.64 1.4871 -8 2 4 4 62.68 3.62 1.4822 -4 2 5 4 63.00 26.36 1.4755 0 4 0 2 64.38 9.20 1.4471 10 2 2 4 65.49 1.14 1.4252 -13 1 1 4 66.18 2.45 1.4120 2 0 6 2 66.83 2.88 1.3998 -12 2 1 4 66.95 1.18 1.3976 3 3 4 4 67.17 1.64 1.3936 -6 0 6 2 68.22 2.01 1.3747 2 4 2 4 68.65 5.32 1.3671 -12 0 4 2 68.72 1.05 1.3659 11 1 3 4 69.98 1.43 1.3444 8 2 4 4 70.18 2.39 1.3411 -13 1 3 4 70.48 2.09 1.3360 -7 3 4 4 71.13 2.37 1.3255 5 3 4 4 71.70 1.88 1.3163 0 4 3 4 71.79 5.67 1.3148 -2 2 6 4 71.82 1.96 1.3144 -2 4 3 4 72.42 3.06 1.3051 -3 3 5 4 72.72 2.92 1.3004 -11 3 1 4 72.83 6.72 1.2987 -4 2 6 4 72.84 6.00 1.2985 -6 4 2 4 73.79 1.04 1.2841 -11 1 5 4 74.49 1.49 1.2737 2 2 6 4 75.36 1.02 1.2612 6 0 6 2 75.50 1.03 1.2592 -2 0 7 2 75.77 1.02 1.2554 3 3 5 4 75.93 1.27 1.2531 -9 3 4 4 76.29 1.96 1.2481 -10 2 5 4 76.36 3.77 1.2471 14 0 2 2 76.53 1.73 1.2449 -15 1 1 4 77.06 2.40 1.2375 9 1 5 4 77.64 2.61 1.2298 14 2 0 4 77.89 3.27 1.2265 -8 4 2 4 78.17 1.61 1.2228 0 4 4 4 79.21 1.52 1.2093 8 2 5 4 79.51 1.31 1.2055 -4 4 4 4 82.48 1.00 1.1694 -6 4 4 4 84.16 1.06 1.1504 15 1 2 4 86.21 1.99 1.1282 -13 3 3 4 86.49 1.05 1.1253 2 2 7 4 87.18 1.07 1.1181 10 2 5 4 87.67 1.07 1.1131 6 4 4 4 87.76 4.18 1.1122 5 5 1 4 88.69 1.41 1.1030 10 4 2 4 89.12 3.21 1.0987 16 2 0 4 89.38 1.10 1.0962 -4 0 8 2 89.47 1.06 1.0953 -1 5 3 4 89.94 1.06 1.0908 8 2 6 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.