Banalsite Takeuchi Y, Kudoh Y, Haga N Zeitschrift fur Kristallographie 138 (1973) 313-336 The interpretation of partial Patterson functions and its application to structure analyses of serandite Mn2NaHSi3O9 and banalsite BaNa2Al4Si4O16 _database_code_amcsd 0010759 CELL PARAMETERS: 8.4960 9.9830 16.7550 90.000 90.000 90.000 SPACE GROUP: Ibam X-RAY WAVELENGTH: 1.541838 Cell Volume: 1421.085 Density (g/cm3): 3.082 MAX. ABS. INTENSITY / VOLUME**2: 11.93575215 RIR: 1.261 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.56 35.15 8.3775 0 0 2 2 13.69 31.69 6.4701 1 1 0 4 17.32 62.18 5.1207 1 1 2 8 17.77 17.54 4.9915 0 2 0 2 20.71 4.20 4.2881 0 2 2 4 20.91 14.29 4.2480 2 0 0 2 21.21 7.46 4.1887 0 0 4 2 21.32 16.05 4.1684 1 2 1 8 23.37 3.27 3.8066 2 1 1 8 23.48 55.32 3.7887 2 0 2 4 25.33 100.00 3.5162 1 1 4 8 26.14 2.92 3.4090 1 2 3 8 27.57 20.18 3.2350 2 2 0 4 27.80 12.87 3.2086 0 2 4 4 27.86 48.34 3.2024 2 1 3 8 28.81 43.42 3.0985 1 3 0 4 29.60 47.06 3.0179 2 2 2 8 29.96 44.50 2.9826 2 0 4 4 30.77 70.36 2.9061 1 3 2 8 32.05 2.10 2.7925 0 0 6 2 32.87 12.76 2.7245 3 1 0 4 33.90 25.15 2.6440 1 2 5 8 34.62 17.91 2.5909 3 1 2 8 35.00 8.13 2.5639 1 1 6 8 35.05 33.65 2.5604 2 2 4 8 36.06 5.00 2.4910 1 3 4 8 36.88 21.70 2.4370 0 2 6 4 37.61 9.09 2.3919 0 4 2 4 37.96 5.50 2.3705 1 4 1 8 38.58 3.10 2.3335 2 0 6 4 39.46 9.53 2.2839 3 1 4 8 41.89 14.23 2.1567 3 3 0 4 41.99 2.27 2.1519 2 4 0 4 42.15 19.55 2.1440 0 4 4 4 42.56 10.15 2.1240 4 0 0 2 42.78 12.67 2.1139 2 2 6 8 43.20 12.48 2.0944 0 0 8 2 43.25 5.84 2.0918 1 2 7 8 43.32 23.02 2.0886 3 3 2 8 43.42 27.63 2.0842 2 4 2 8 43.63 14.46 2.0744 1 3 6 8 43.98 1.90 2.0589 4 0 2 4 44.38 8.09 2.0413 2 1 7 8 45.52 16.89 1.9926 1 1 8 8 45.71 1.59 1.9847 3 2 5 8 46.46 15.75 1.9544 4 2 0 4 46.57 9.36 1.9501 3 1 6 8 46.62 1.18 1.9483 1 4 5 8 46.65 6.14 1.9472 4 1 3 8 46.74 1.07 1.9437 1 5 0 4 47.05 2.39 1.9313 0 2 8 4 47.50 6.68 1.9141 2 4 4 8 47.79 3.90 1.9033 4 2 2 8 48.03 7.04 1.8944 4 0 4 4 48.46 5.16 1.8785 2 0 8 4 48.95 2.86 1.8609 0 4 6 4 51.47 2.59 1.7753 3 4 3 8 51.86 11.84 1.7631 1 5 4 8 52.02 1.39 1.7581 2 2 8 8 52.76 1.20 1.7352 1 3 8 8 53.28 1.91 1.7192 2 5 3 8 53.64 5.03 1.7087 1 2 9 8 53.70 14.13 1.7069 3 3 6 8 53.77 1.51 1.7049 4 3 3 8 53.78 3.71 1.7045 2 4 6 8 54.18 1.14 1.6929 1 4 7 8 54.26 6.62 1.6906 4 0 6 4 54.60 2.58 1.6808 2 1 9 8 55.21 3.91 1.6638 0 6 0 2 55.33 2.94 1.6605 3 1 8 8 55.98 3.46 1.6426 5 1 2 8 56.28 10.01 1.6346 3 4 5 8 56.76 2.76 1.6220 1 1 10 8 56.93 4.32 1.6175 4 4 0 4 57.44 1.58 1.6043 0 4 8 4 57.54 1.88 1.6017 3 5 2 8 57.56 3.76 1.6012 4 2 6 8 57.80 6.21 1.5953 1 5 6 8 58.08 3.66 1.5882 4 4 2 8 59.29 5.12 1.5586 2 0 10 4 59.43 10.37 1.5553 5 1 4 8 59.68 11.18 1.5492 2 6 0 4 59.81 2.76 1.5463 0 6 4 4 60.80 2.66 1.5234 2 6 2 8 60.93 4.32 1.5205 3 5 4 8 61.45 2.66 1.5089 4 4 4 8 61.74 3.49 1.5025 3 3 8 8 61.81 2.53 1.5009 2 4 8 8 62.25 2.07 1.4913 4 0 8 4 62.35 3.06 1.4892 5 3 2 8 62.42 5.38 1.4878 2 2 10 8 63.03 6.87 1.4748 3 4 7 8 63.08 8.58 1.4738 1 3 10 8 64.23 2.71 1.4501 5 2 5 8 64.27 1.06 1.4493 4 5 1 8 65.06 1.04 1.4337 4 3 7 8 65.28 4.67 1.4293 3 6 1 8 65.30 2.62 1.4289 4 2 8 8 65.39 1.85 1.4272 3 1 10 8 65.52 3.77 1.4247 1 5 8 8 65.59 6.91 1.4233 5 3 4 8 65.80 1.44 1.4192 2 1 11 8 66.35 2.34 1.4089 3 5 6 8 66.48 3.64 1.4065 1 7 0 4 66.84 3.61 1.3997 4 4 6 8 66.84 2.69 1.3997 5 4 1 8 66.98 1.00 1.3971 6 1 1 8 67.03 6.17 1.3962 0 0 12 2 67.03 1.69 1.3962 6 0 2 4 67.31 1.30 1.3911 0 4 10 4 67.40 1.19 1.3895 3 6 3 8 67.53 4.55 1.3871 1 7 2 8 67.56 1.94 1.3864 4 1 9 8 69.37 1.83 1.3547 2 6 6 8 69.97 1.03 1.3446 0 2 12 4 69.97 3.29 1.3446 6 2 2 8 70.16 6.11 1.3414 6 0 4 4 70.54 3.97 1.3351 5 2 7 8 70.58 1.12 1.3344 4 5 5 8 70.65 1.64 1.3333 1 7 4 8 70.82 2.94 1.3305 5 3 6 8 71.07 1.21 1.3264 2 0 12 4 71.27 3.71 1.3231 3 3 10 8 71.34 6.39 1.3220 2 4 10 8 71.46 3.91 1.3202 3 4 9 8 71.84 1.08 1.3140 2 7 3 8 72.22 1.77 1.3082 5 1 8 8 72.56 2.56 1.3028 0 6 8 4 73.04 1.16 1.2955 6 2 4 8 73.13 1.06 1.2941 4 6 2 8 73.13 3.33 1.2940 5 5 0 4 73.58 1.35 1.2872 3 5 8 8 73.72 2.49 1.2852 1 4 11 8 74.05 3.46 1.2802 4 4 8 8 74.14 1.47 1.2789 5 5 2 8 74.54 6.04 1.2730 1 3 12 8 75.24 1.59 1.2629 6 0 6 4 75.50 3.01 1.2593 3 7 2 8 76.15 7.55 1.2501 4 6 4 8 76.48 1.98 1.2455 2 6 8 8 76.69 2.71 1.2426 3 1 12 8 77.51 1.08 1.2316 6 4 0 4 77.88 3.48 1.2266 5 3 8 8 78.48 4.30 1.2187 3 7 4 8 78.49 1.13 1.2185 0 4 12 4 78.50 1.71 1.2185 6 4 2 8 79.56 3.90 1.2048 7 1 0 4 80.16 1.14 1.1973 2 8 0 4 80.27 2.71 1.1959 0 8 4 4 80.55 1.54 1.1926 7 1 2 8 81.20 1.76 1.1846 5 1 10 8 81.45 1.25 1.1816 6 4 4 8 82.26 1.10 1.1721 3 3 12 8 82.64 2.65 1.1676 1 7 8 8 82.71 3.14 1.1667 4 0 12 4 83.40 1.06 1.1589 3 7 6 8 83.45 1.52 1.1583 4 7 3 8 85.17 1.09 1.1393 0 8 6 4 85.46 2.42 1.1361 4 2 12 8 86.33 1.69 1.1269 6 4 6 8 86.70 1.03 1.1231 5 3 10 8 86.76 1.34 1.1224 2 2 14 8 87.35 2.00 1.1164 1 3 14 8 88.35 2.20 1.1063 7 1 6 8 88.95 5.91 1.1004 2 8 6 8 88.97 3.00 1.1002 7 3 4 8 89.43 1.16 1.0957 3 1 14 8 89.78 1.27 1.0924 5 7 0 4 89.97 1.24 1.0905 1 9 2 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.