Boulangerite Born L, Hellner E American Mineralogist 45 (1960) 1266-1271 A structural proposal for boulangerite Locality: Pribram, Bohemia _database_code_amcsd 0000096 CELL PARAMETERS: 42.2800 23.4600 8.0700 90.000 90.000 90.000 SPACE GROUP: Bb2_1m X-RAY WAVELENGTH: 1.541838 Cell Volume: 8004.542 Density (g/cm3): 3.042 MAX. ABS. INTENSITY / VOLUME**2: 52.84219022 RIR: 5.657 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 5.63 2.79 15.7046 2 1 0 2 7.54 5.63 11.7300 0 2 0 1 8.62 11.49 10.2568 2 2 0 2 9.18 8.58 9.6370 4 1 0 2 11.27 3.22 7.8523 4 2 0 2 12.56 3.67 7.0467 6 0 0 2 13.12 2.00 6.7488 6 1 0 2 14.09 20.66 6.2866 4 3 0 2 14.66 8.69 6.0405 6 2 0 2 15.11 1.21 5.8650 0 4 0 1 15.68 4.51 5.6515 2 4 0 2 16.94 100.00 5.2349 6 3 0 2 17.20 3.58 5.1558 8 1 0 2 17.29 14.68 5.1284 4 4 0 2 18.41 14.22 4.8185 8 2 0 2 19.38 7.04 4.5805 2 5 0 2 19.69 23.83 4.5079 6 4 0 2 20.28 7.12 4.3788 8 3 0 2 20.71 1.10 4.2885 4 5 0 2 21.01 4.31 4.2280 10 0 0 2 22.03 91.07 4.0350 0 0 2 2 22.65 7.99 3.9261 8 4 0 2 22.74 10.22 3.9100 0 6 0 1 23.13 8.71 3.8448 2 6 0 2 23.70 2.32 3.7549 2 2 2 4 23.91 1.98 3.7219 4 1 2 4 23.93 1.41 3.7192 10 3 0 2 24.81 1.15 3.5889 4 2 2 4 25.28 13.25 3.5233 12 0 0 2 25.38 3.67 3.5087 8 5 0 2 25.44 1.41 3.5016 6 0 2 4 25.57 12.01 3.4843 12 1 0 2 25.98 1.10 3.4297 10 4 0 2 26.06 1.69 3.4189 6 6 0 2 26.24 9.79 3.3957 4 3 2 4 26.41 1.69 3.3744 12 2 0 2 26.57 4.31 3.3553 6 2 2 4 26.94 7.36 3.3101 2 7 0 2 27.15 2.36 3.2839 2 4 2 4 27.92 59.36 3.1958 6 3 2 4 28.08 2.14 3.1776 8 1 2 4 28.14 8.77 3.1711 4 4 2 4 28.39 2.34 3.1433 8 6 0 2 28.42 1.78 3.1409 10 5 0 2 28.86 9.12 3.0936 8 2 2 4 29.50 5.01 3.0278 2 5 2 4 29.58 1.04 3.0202 12 4 0 2 29.72 16.05 3.0065 6 4 2 4 30.12 4.93 2.9673 8 3 2 4 30.63 3.29 2.9190 10 0 2 4 30.78 1.76 2.9047 2 8 0 2 31.16 12.50 2.8706 10 6 0 2 31.76 2.07 2.8174 12 5 0 2 31.80 6.49 2.8139 8 4 2 4 31.87 8.54 2.8079 0 6 2 2 32.16 7.40 2.7835 2 6 2 4 32.75 1.20 2.7347 10 3 2 4 33.37 2.00 2.6850 14 4 0 2 33.77 12.40 2.6540 12 0 2 4 33.86 3.32 2.6477 8 5 2 4 34.00 11.10 2.6371 12 1 2 4 34.14 4.23 2.6264 10 7 0 2 34.26 2.46 2.6174 12 6 0 2 34.32 1.04 2.6133 10 4 2 4 34.38 1.57 2.6085 6 6 2 4 34.65 1.64 2.5885 12 2 2 4 34.80 2.90 2.5779 16 2 0 2 34.99 3.15 2.5642 8 8 0 2 35.06 7.44 2.5592 2 7 2 4 35.35 1.94 2.5394 14 5 0 2 35.47 5.67 2.5308 4 9 0 2 35.87 5.78 2.5034 16 3 0 2 36.23 2.32 2.4797 8 6 2 4 36.24 1.80 2.4785 10 5 2 4 36.76 1.60 2.4448 6 9 0 2 37.02 1.08 2.4283 12 7 0 2 37.18 1.09 2.4179 12 4 2 4 38.18 1.93 2.3574 2 8 2 4 38.49 13.70 2.3391 10 6 2 4 38.52 2.86 2.3372 18 1 0 2 38.61 1.94 2.3317 2 10 0 2 38.99 2.26 2.3100 12 5 2 4 39.11 1.43 2.3032 18 2 0 2 39.34 8.40 2.2903 4 10 0 2 40.00 2.22 2.2539 12 8 0 2 40.08 3.60 2.2496 18 3 0 2 40.20 4.64 2.2435 14 7 0 2 40.35 2.34 2.2353 14 4 2 4 41.00 4.92 2.2012 10 7 2 4 41.11 2.85 2.1959 12 6 2 4 41.41 2.27 2.1805 18 4 0 2 41.57 3.40 2.1724 16 2 2 4 41.74 3.76 2.1642 8 8 2 4 42.04 2.36 2.1492 14 5 2 4 42.14 2.88 2.1442 8 10 0 2 42.15 6.73 2.1440 4 9 2 4 42.50 6.96 2.1273 16 3 2 4 42.99 1.48 2.1038 14 8 0 2 43.07 2.26 2.1004 18 5 0 2 43.27 1.94 2.0909 6 9 2 4 43.50 1.35 2.0806 12 7 2 4 44.68 1.17 2.0281 0 10 2 2 44.81 3.59 2.0224 18 1 2 4 44.90 2.42 2.0188 2 10 2 4 44.93 12.01 2.0175 0 0 4 2 45.34 1.81 2.0003 18 2 2 4 45.54 10.59 1.9918 4 10 2 4 45.88 1.05 1.9778 8 11 0 2 46.13 2.83 1.9678 12 8 2 4 46.20 4.61 1.9649 18 3 2 4 46.30 5.93 1.9608 14 7 2 4 47.32 1.88 1.9210 4 3 4 4 47.39 2.97 1.9183 18 4 2 4 48.05 3.83 1.8935 8 10 2 4 48.35 12.07 1.8825 6 3 4 4 48.47 1.13 1.8781 2 11 2 4 48.49 1.76 1.8774 4 4 4 4 48.79 1.03 1.8666 20 1 2 4 48.82 1.96 1.8655 14 8 2 4 48.89 3.00 1.8631 18 5 2 4 48.95 1.86 1.8610 8 2 4 4 49.09 1.82 1.8557 16 9 0 2 49.28 1.13 1.8492 20 2 2 4 49.36 1.11 1.8463 2 5 4 4 49.50 3.29 1.8415 6 4 4 4 49.76 1.03 1.8324 8 3 4 4 50.08 1.14 1.8215 6 11 2 4 50.78 1.33 1.7981 2 13 0 2 50.89 1.53 1.7944 8 4 4 4 50.93 2.08 1.7929 0 6 4 2 51.08 1.20 1.7880 20 7 0 2 51.13 1.83 1.7865 2 6 4 4 51.36 1.10 1.7789 4 13 0 2 51.38 1.55 1.7784 22 5 0 2 51.46 1.45 1.7759 8 11 2 4 51.56 1.30 1.7727 14 9 2 4 52.17 1.09 1.7533 2 12 2 4 52.25 3.31 1.7508 12 0 4 4 52.41 2.90 1.7459 12 1 4 4 52.53 1.34 1.7421 14 11 0 2 52.75 1.13 1.7355 4 12 2 4 52.91 1.33 1.7303 22 1 2 4 53.10 2.71 1.7247 22 6 0 2 53.17 2.13 1.7227 2 7 4 4 53.61 1.29 1.7095 12 12 0 2 54.42 2.59 1.6860 16 9 2 4 54.97 1.50 1.6705 2 14 0 2 55.69 4.20 1.6506 10 6 4 4 55.99 1.91 1.6424 2 13 2 4 56.28 1.72 1.6347 20 7 2 4 56.54 1.59 1.6277 4 13 2 4 56.55 2.24 1.6274 22 5 2 4 56.67 1.10 1.6243 10 12 2 4 57.61 1.61 1.5999 10 7 4 4 57.63 1.21 1.5994 24 2 2 4 57.63 1.95 1.5994 14 11 2 4 58.05 1.13 1.5888 16 2 4 4 58.17 3.97 1.5859 22 6 2 4 58.18 1.27 1.5856 8 8 4 4 58.48 1.01 1.5782 20 8 2 4 58.51 2.27 1.5776 4 9 4 4 58.65 1.89 1.5740 12 12 2 4 58.78 2.38 1.5709 16 3 4 4 58.94 1.10 1.5670 26 4 0 2 59.93 2.23 1.5434 2 14 2 4 60.63 1.30 1.5272 18 1 4 4 61.23 3.88 1.5139 4 10 4 4 61.39 1.01 1.5101 24 8 0 2 61.71 1.06 1.5033 12 8 4 4 61.76 1.72 1.5020 18 3 4 4 61.79 1.02 1.5014 20 11 0 2 61.85 2.22 1.5001 14 7 4 4 62.74 1.15 1.4809 18 4 4 4 63.24 1.01 1.4704 18 11 2 4 63.29 1.50 1.4694 8 10 4 4 63.71 1.67 1.4607 26 4 2 4 63.99 1.19 1.4550 18 5 4 4 66.06 1.56 1.4143 24 8 2 4 66.44 1.58 1.4071 20 11 2 4 66.61 1.12 1.4040 28 2 2 4 68.08 1.45 1.3773 14 14 2 4 68.73 1.15 1.3658 16 9 4 4 69.94 2.65 1.3450 0 0 6 2 70.60 1.03 1.3341 22 5 4 4 72.04 1.88 1.3110 22 6 4 4 72.57 2.99 1.3027 6 3 6 4 73.62 1.09 1.2867 2 14 4 4 74.91 1.12 1.2676 8 17 2 4 78.54 1.28 1.2179 10 6 6 4 83.32 1.38 1.1598 4 10 6 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.