Lamprophyllite Krivovichev S V, Armbruster T, Yakovenchuk V N, Pakhomovsky Y A, Men'shikov Y P European Journal of Mineralogy 15 (2003) 711-718 Crystal structures of lamprophyllite-2M and lamprophyllite-2O from the Lovozero alkaline massif, Kola peninsula, Russia Note: displacement factors have been altered by Krivovichev, November 2003 Locality: Lovozero alkaline massif, Kola peninsula, Russia _database_code_amcsd 0007013 CELL PARAMETERS: 19.1280 7.0799 5.3824 90.000 90.000 90.000 SPACE GROUP: Pnmn X-RAY WAVELENGTH: 1.541838 Cell Volume: 728.908 Density (g/cm3): 3.590 MAX. ABS. INTENSITY / VOLUME**2: 11.69598175 RIR: 1.061 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.25 66.56 9.5640 2 0 0 2 13.34 6.71 6.6397 1 1 0 4 17.11 3.70 5.1812 1 0 1 4 18.73 1.76 4.7379 3 1 0 4 20.73 2.99 4.2848 0 1 1 4 21.25 2.82 4.1812 1 1 1 8 21.61 6.86 4.1129 3 0 1 4 22.74 33.61 3.9103 2 1 1 8 24.91 7.80 3.5749 4 0 1 4 25.04 57.75 3.5563 3 1 1 8 25.16 11.94 3.5399 0 2 0 2 26.48 29.88 3.3657 5 1 0 4 26.86 10.98 3.3198 2 2 0 4 27.96 28.60 3.1912 4 1 1 8 27.99 48.70 3.1880 6 0 0 2 28.63 4.72 3.1182 5 0 1 4 30.59 1.53 2.9229 1 2 1 8 31.35 43.80 2.8537 5 1 1 8 31.44 22.27 2.8452 4 2 0 4 31.67 100.00 2.8256 2 2 1 8 32.65 15.33 2.7430 6 0 1 4 33.40 80.35 2.6830 3 2 1 8 33.63 50.43 2.6650 1 0 2 4 34.63 8.48 2.5906 2 0 2 4 35.08 13.20 2.5577 6 1 1 8 35.20 30.04 2.5493 7 1 0 4 35.69 4.37 2.5154 4 2 1 8 36.23 1.51 2.4794 3 0 2 4 36.89 8.38 2.4365 7 0 1 4 36.95 4.90 2.4328 2 1 2 8 37.62 1.37 2.3910 8 0 0 2 37.98 2.77 2.3689 6 2 0 4 38.38 6.10 2.3453 4 0 2 4 38.47 1.28 2.3400 3 1 2 8 38.47 3.77 2.3399 5 2 1 8 39.10 2.98 2.3039 7 1 1 8 40.52 17.12 2.2263 4 1 2 8 40.77 3.88 2.2132 3 3 0 4 41.32 7.94 2.1851 8 0 1 4 41.65 5.53 2.1682 6 2 1 8 41.79 1.18 2.1613 0 3 1 4 42.07 7.35 2.1477 1 3 1 8 42.18 1.38 2.1424 0 2 2 4 42.46 43.02 2.1291 1 2 2 8 42.90 4.71 2.1082 2 3 1 8 43.28 2.44 2.0906 2 2 2 8 44.03 5.27 2.0564 6 0 2 4 44.25 2.56 2.0469 3 3 1 8 44.51 14.81 2.0356 9 1 0 4 44.62 15.99 2.0308 3 2 2 8 45.14 22.74 2.0085 5 3 0 4 45.18 12.15 2.0071 7 2 1 8 45.91 1.99 1.9768 9 0 1 4 45.96 25.69 1.9748 6 1 2 8 46.09 1.69 1.9695 4 3 1 8 47.77 4.48 1.9040 9 1 1 8 48.37 8.71 1.8818 5 3 1 8 49.23 3.59 1.8508 7 1 2 8 50.65 1.88 1.8024 10 0 1 4 51.05 3.53 1.7890 6 3 1 8 51.10 2.75 1.7874 8 0 2 4 51.14 12.17 1.7861 7 3 0 4 51.64 26.32 1.7700 0 4 0 2 52.38 5.11 1.7467 10 1 1 8 52.45 10.33 1.7446 2 3 2 8 52.82 11.30 1.7331 8 1 2 8 53.06 3.34 1.7259 9 2 1 8 53.56 2.49 1.7111 2 1 3 8 54.32 1.44 1.6887 11 1 0 4 54.42 3.65 1.6860 7 2 2 8 54.53 1.82 1.6828 10 2 0 4 54.71 2.62 1.6779 3 1 3 8 55.06 2.46 1.6679 9 0 2 4 55.49 1.25 1.6560 2 4 1 8 56.29 11.66 1.6344 4 1 3 8 56.61 1.28 1.6258 3 4 1 8 56.67 3.23 1.6244 5 0 3 4 57.17 8.22 1.6113 11 1 1 8 57.37 3.24 1.6062 10 2 1 8 57.82 23.44 1.5948 1 2 3 8 58.16 1.19 1.5862 4 4 1 8 58.44 3.48 1.5793 9 3 0 4 58.47 2.54 1.5784 2 2 3 8 59.27 2.98 1.5591 10 0 2 4 59.56 1.80 1.5522 3 2 3 8 59.63 8.77 1.5504 6 3 2 8 59.76 2.86 1.5475 6 4 0 4 60.65 3.22 1.5268 6 1 3 8 60.84 1.57 1.5226 10 1 2 8 61.45 3.61 1.5088 9 2 2 8 61.87 2.40 1.4998 7 0 3 4 61.90 17.62 1.4990 11 2 1 8 62.13 3.24 1.4940 12 1 1 8 62.40 1.56 1.4882 7 3 2 8 62.44 3.75 1.4872 6 4 1 8 62.96 5.88 1.4764 5 2 3 8 63.05 20.21 1.4744 1 4 2 8 63.67 3.17 1.4614 2 4 2 8 64.07 1.15 1.4534 12 2 0 4 65.14 2.33 1.4320 7 4 1 8 65.33 2.29 1.4283 0 3 3 4 65.51 18.55 1.4249 8 3 2 8 66.14 1.72 1.4128 4 4 2 8 66.65 13.94 1.4032 12 2 1 8 66.83 1.08 1.3999 11 3 0 4 67.28 1.61 1.3916 13 1 1 8 68.18 1.92 1.3754 8 4 1 8 68.40 1.65 1.3715 12 0 2 4 68.43 1.74 1.3710 9 0 3 4 68.57 2.71 1.3685 4 3 3 8 68.70 4.86 1.3663 14 0 0 2 69.36 1.62 1.3548 11 3 1 8 69.91 4.87 1.3456 0 0 4 2 70.11 3.15 1.3423 1 0 4 4 70.15 1.05 1.3415 6 4 2 8 70.31 4.37 1.3389 3 5 1 8 70.70 5.90 1.3325 2 0 4 4 71.69 3.34 1.3165 4 5 1 8 72.69 4.71 1.3009 10 3 2 8 73.05 1.97 1.2953 4 0 4 4 73.33 8.58 1.2910 13 0 2 4 73.45 4.10 1.2893 5 5 1 8 73.61 4.49 1.2868 10 1 3 8 73.87 2.38 1.2829 12 3 1 8 74.17 1.35 1.2784 9 2 3 8 74.43 1.68 1.2746 14 2 0 4 75.57 1.21 1.2582 6 5 1 8 75.61 1.37 1.2577 8 4 2 8 75.64 1.42 1.2572 7 5 0 4 76.20 1.06 1.2494 5 1 4 8 76.37 1.94 1.2471 2 2 4 8 76.70 3.35 1.2425 2 5 2 8 77.65 1.03 1.2297 11 1 3 8 78.30 1.04 1.2211 6 1 4 8 78.66 1.10 1.2164 4 2 4 8 78.67 3.42 1.2163 13 3 1 8 78.98 2.80 1.2122 4 5 2 8 80.21 1.63 1.1968 5 4 3 8 80.76 3.35 1.1900 7 1 4 8 81.59 2.70 1.1800 0 6 0 2 81.72 1.78 1.1784 9 5 0 4 81.79 3.25 1.1776 11 2 3 8 82.00 2.13 1.1751 12 1 3 8 82.21 1.05 1.1727 8 0 4 4 82.34 1.21 1.1711 2 6 0 4 82.44 1.29 1.1699 10 4 2 8 82.76 2.76 1.1662 6 5 2 8 83.98 4.40 1.1524 15 0 2 4 84.09 1.81 1.1511 9 5 1 8 84.70 1.65 1.1443 2 6 1 8 84.71 1.56 1.1442 7 4 3 8 85.64 2.89 1.1342 3 6 1 8 85.79 1.32 1.1327 16 2 0 4 86.10 1.22 1.1294 12 2 3 8 86.75 2.34 1.1225 9 1 4 8 87.20 3.03 1.1179 5 3 4 8 87.63 2.48 1.1135 10 5 1 8 88.14 1.46 1.1084 16 2 1 8 88.93 1.57 1.1006 10 0 4 4 89.19 1.42 1.0980 11 5 0 4 89.25 1.18 1.0975 6 3 4 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.