Labuntsovite-Mn Golovastikov N I Soviet Physics Crystallography 18 (1974) 596-599 Crystal structure of the alkali titanosilicate labuntsovite Sample: half-cell _database_code_amcsd 0015563 CELL PARAMETERS: 14.1800 7.7400 13.7000 90.000 90.000 117.000 SPACE GROUP: B2/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 1339.734 Density (g/cm3): 2.727 MAX. ABS. INTENSITY / VOLUME**2: 6.122574753 RIR: 0.731 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.52 17.33 9.2878 1 0 1 4 12.84 100.00 6.8964 0 1 0 2 12.92 29.12 6.8500 0 0 2 2 13.19 11.04 6.7119 1 -1 1 4 14.02 41.66 6.3172 2 0 0 2 14.07 81.70 6.2941 -2 1 0 2 18.25 28.83 4.8600 0 1 2 4 18.41 4.40 4.8202 1 1 1 4 19.15 9.71 4.6347 2 -1 2 4 22.08 11.42 4.0256 3 0 1 4 23.01 3.75 3.8655 2 1 0 2 23.10 12.42 3.8496 -2 2 0 2 25.12 9.68 3.5450 -4 1 0 2 25.71 1.14 3.4650 3 -2 1 4 25.84 2.44 3.4482 0 2 0 2 26.48 4.59 3.3665 2 1 2 4 28.25 27.68 3.1586 4 0 0 2 28.35 56.95 3.1484 4 -1 2 4 28.36 31.12 3.1471 -4 2 0 2 28.99 43.70 3.0800 0 2 2 4 29.11 61.75 3.0675 0 1 4 4 29.67 34.68 3.0109 2 0 4 4 29.70 26.52 3.0084 2 -1 4 4 30.17 10.43 2.9618 3 1 1 4 30.52 23.53 2.9293 1 2 1 4 31.18 10.55 2.8684 4 0 2 4 31.28 6.04 2.8597 4 -2 2 4 32.39 2.70 2.7643 5 -1 1 4 34.75 8.21 2.5814 1 -1 5 4 34.84 13.49 2.5747 2 2 0 2 34.95 21.36 2.5669 -2 3 0 2 35.00 32.00 2.5635 2 1 4 4 35.07 16.04 2.5588 2 -2 4 4 35.53 2.08 2.5268 3 1 3 4 35.59 2.07 2.5225 3 -3 1 4 36.26 7.91 2.4773 4 1 0 2 36.43 18.56 2.4662 -4 3 0 2 36.48 21.19 2.4632 4 -1 4 4 36.99 14.89 2.4300 0 2 4 4 37.17 2.57 2.4189 1 1 5 4 37.46 1.34 2.4009 5 -1 3 4 38.11 4.21 2.3613 3 -1 5 4 38.78 1.56 2.3219 4 0 4 4 38.86 1.86 2.3173 4 -2 4 4 39.19 1.92 2.2988 0 3 0 2 40.31 2.57 2.2373 3 -3 3 4 40.62 4.71 2.2210 -1 2 5 4 41.20 1.45 2.1909 3 2 1 4 41.43 1.76 2.1793 0 3 2 4 41.50 3.99 2.1762 3 -2 5 4 42.08 2.53 2.1474 2 0 6 4 42.95 6.51 2.1057 6 0 0 2 43.12 6.56 2.0980 -6 3 0 2 43.60 1.60 2.0757 1 3 1 4 43.90 5.43 2.0625 5 1 1 4 44.09 1.27 2.0541 -2 3 4 4 44.56 10.17 2.0333 3 1 5 4 44.81 2.61 2.0227 1 2 5 4 45.17 6.35 2.0073 4 1 4 4 45.31 8.01 2.0013 4 -3 4 4 45.39 2.22 1.9980 7 -2 1 4 46.17 2.60 1.9660 2 1 6 4 46.17 4.22 1.9660 5 -1 5 4 46.98 1.18 1.9341 1 0 7 4 47.02 4.63 1.9327 4 2 0 2 47.16 1.63 1.9271 6 -1 4 4 47.21 2.96 1.9251 6 -2 4 4 47.22 1.85 1.9248 -4 4 0 2 47.64 4.02 1.9087 0 3 4 4 47.77 5.14 1.9038 0 2 6 4 48.40 3.27 1.8808 7 -3 1 4 48.61 2.99 1.8731 3 -3 5 4 49.05 1.27 1.8571 5 -4 1 4 49.31 1.21 1.8481 4 -2 6 4 49.90 1.61 1.8275 -2 4 2 4 50.76 2.73 1.7987 6 1 0 2 50.90 1.41 1.7938 6 0 4 4 51.00 6.55 1.7907 -6 4 0 2 51.05 3.02 1.7891 6 -3 4 4 51.56 12.22 1.7725 -8 2 0 2 53.10 5.71 1.7246 3 2 5 4 53.12 8.11 1.7241 0 4 0 2 53.31 1.27 1.7186 -8 1 0 2 53.43 1.10 1.7148 -8 3 0 2 53.51 15.13 1.7125 0 0 8 2 54.52 6.23 1.6832 4 2 4 4 54.67 4.67 1.6790 4 1 6 4 54.70 11.54 1.6780 4 -4 4 4 54.79 3.20 1.6755 4 -3 6 4 54.91 1.21 1.6720 0 4 2 4 55.10 1.16 1.6669 8 -1 2 4 55.10 3.14 1.6668 1 3 5 4 55.22 1.56 1.6635 8 -3 2 4 55.27 1.26 1.6620 0 1 8 4 55.35 2.35 1.6599 5 1 5 4 55.60 1.28 1.6528 2 0 8 4 56.41 1.27 1.6312 6 -1 6 4 56.45 5.49 1.6300 6 -2 6 4 56.83 4.64 1.6200 0 3 6 4 57.42 1.25 1.6049 7 -1 5 4 57.53 1.56 1.6019 1 4 1 4 57.91 2.68 1.5925 6 1 4 4 58.13 2.91 1.5869 6 -4 4 4 58.44 1.82 1.5793 -3 4 5 4 58.86 1.28 1.5689 7 1 1 4 59.87 2.48 1.5449 6 -3 6 4 59.99 2.11 1.5420 4 -1 8 4 60.12 1.37 1.5389 8 0 2 4 60.25 9.73 1.5360 8 -1 4 4 60.36 3.07 1.5336 8 -4 2 4 60.37 5.98 1.5334 8 -3 4 4 61.19 1.91 1.5148 4 3 2 4 61.34 3.67 1.5113 1 0 9 4 61.42 3.48 1.5097 -4 5 2 4 61.52 2.62 1.5073 7 0 5 4 61.60 1.71 1.5055 4 0 8 4 61.66 2.55 1.5042 4 -2 8 4 62.01 2.17 1.4965 -2 5 0 2 63.36 1.12 1.4679 3 2 7 4 63.64 1.69 1.4621 -2 5 2 4 64.01 1.49 1.4546 3 3 5 4 65.03 3.75 1.4342 8 0 4 4 65.16 1.16 1.4316 3 0 9 4 65.25 3.94 1.4298 8 -4 4 4 65.53 2.05 1.4246 -2 3 8 4 66.05 7.98 1.4146 4 3 4 4 66.27 10.29 1.4104 -4 5 4 4 66.36 4.69 1.4087 4 1 8 4 66.47 5.75 1.4066 4 -3 8 4 66.62 3.61 1.4037 5 3 1 4 66.77 1.21 1.4009 3 -2 9 4 66.82 1.55 1.4001 8 -2 6 4 67.01 1.27 1.3965 9 0 1 4 67.78 1.89 1.3825 3 4 1 4 68.04 1.12 1.3780 8 1 2 4 68.36 1.01 1.3722 8 -5 2 4 68.49 1.04 1.3700 0 0 10 2 68.81 2.33 1.3644 9 -2 5 4 69.22 2.91 1.3573 1 2 9 4 70.10 4.22 1.3424 5 -5 5 4 70.32 1.97 1.3387 2 -1 10 4 71.03 2.56 1.3270 9 -1 5 4 72.43 2.22 1.3048 10 -2 4 4 72.50 2.17 1.3038 10 -3 4 4 73.50 1.15 1.2885 6 3 0 2 73.57 2.83 1.2874 4 4 0 2 73.83 1.71 1.2835 -4 6 0 2 73.85 1.16 1.2832 -6 6 0 2 73.95 2.01 1.2817 4 2 8 4 74.11 3.16 1.2794 0 5 4 4 74.21 2.51 1.2779 4 -1 10 4 74.25 1.10 1.2772 -1 5 5 4 74.53 4.08 1.2732 0 2 10 4 75.08 1.45 1.2652 4 4 2 4 75.21 1.26 1.2634 6 2 6 4 75.35 1.72 1.2614 10 -1 4 4 75.54 2.41 1.2586 10 -4 4 4 76.86 1.06 1.2403 6 1 8 4 76.98 1.18 1.2387 8 2 0 2 77.05 1.64 1.2377 6 -4 8 4 77.51 3.45 1.2316 8 -2 8 4 78.72 2.06 1.2156 7 -2 9 4 78.77 1.13 1.2150 0 4 8 4 79.20 1.63 1.2094 2 2 10 4 80.13 1.24 1.1977 8 1 6 4 80.95 1.35 1.1877 7 -3 9 4 86.33 1.06 1.1269 -2 5 8 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.