Barytolamprophyllite Sokolova E, Camara F The Canadian Mineralogist 46 (2008) 403-412 From structure topology to chemical composition. III. Titanium silicates: The crystal chemistry of barytolamprophyllite Locality: Mt. Yuksporr, Khibina alkaline massif, Kola Peninsula, Russia _database_code_amcsd 0006183 CELL PARAMETERS: 19.8971 7.1165 5.4108 90.000 96.676 90.000 SPACE GROUP: C2/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 760.962 Density (g/cm3): 3.510 MAX. ABS. INTENSITY / VOLUME**2: 13.50694091 RIR: 1.253 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.95 17.49 9.8811 2 0 0 2 13.22 4.95 6.6956 1 1 0 4 18.35 2.17 4.8342 3 1 0 4 19.70 1.52 4.5063 2 0 1 2 20.78 1.17 4.2741 -1 1 1 4 21.61 15.77 4.1128 1 1 1 4 22.99 4.40 3.8681 -4 0 1 2 23.68 47.99 3.7570 -3 1 1 4 25.03 6.89 3.5582 0 2 0 2 25.78 28.67 3.4553 5 1 0 4 25.82 39.47 3.4507 3 1 1 4 25.88 5.52 3.4432 4 0 1 2 26.63 11.75 3.3478 2 2 0 4 27.07 40.43 3.2937 6 0 0 2 29.27 34.62 3.0509 -5 1 1 4 30.13 9.95 2.9661 -6 0 1 2 30.91 20.93 2.8931 -2 2 1 4 30.97 17.72 2.8873 4 2 0 4 32.05 100.00 2.7926 2 2 1 4 32.19 25.66 2.7807 5 1 1 4 33.35 10.33 2.6871 0 0 2 2 33.52 9.63 2.6732 6 0 1 2 33.53 33.51 2.6728 -2 0 2 2 34.17 25.05 2.6242 7 1 0 4 34.24 26.11 2.6188 -4 2 1 4 36.15 6.87 2.4849 -4 0 2 2 36.31 3.60 2.4744 4 2 1 4 36.44 5.13 2.4655 -7 1 1 4 36.52 1.22 2.4605 1 1 2 4 36.86 2.89 2.4386 -3 1 2 4 37.20 3.89 2.4171 6 2 0 4 38.29 6.13 2.3506 -8 0 1 2 39.74 8.48 2.2679 3 1 2 4 40.37 5.70 2.2340 -5 1 2 4 40.41 3.37 2.2319 3 3 0 4 40.80 6.33 2.2118 -6 0 2 2 41.65 2.95 2.1683 -1 3 1 4 41.99 4.37 2.1516 8 0 1 2 42.10 6.27 2.1463 1 3 1 4 42.14 19.81 2.1443 0 2 2 4 42.29 12.35 2.1373 6 2 1 4 42.29 15.66 2.1370 -2 2 2 4 43.11 11.77 2.0982 9 1 0 4 43.28 3.48 2.0906 -3 3 1 4 44.04 6.83 2.0564 2 2 2 4 44.47 5.26 2.0373 -4 2 2 4 44.55 17.88 2.0340 5 3 0 4 44.57 1.39 2.0330 3 3 1 4 44.58 2.15 2.0325 -9 1 1 4 44.78 7.31 2.0238 5 1 2 4 45.64 13.26 1.9879 -7 1 2 4 45.92 1.34 1.9762 10 0 0 2 46.01 3.98 1.9728 6 0 2 2 46.29 4.48 1.9613 -8 2 1 4 46.80 4.15 1.9411 -5 3 1 4 47.12 2.08 1.9288 -10 0 1 2 48.28 4.25 1.8849 9 1 1 4 48.81 6.93 1.8657 5 3 1 4 49.51 1.67 1.8412 8 2 1 4 50.24 7.84 1.8162 7 3 0 4 51.06 1.08 1.7887 10 0 1 2 51.22 6.69 1.7836 7 1 2 4 51.36 21.60 1.7791 0 4 0 2 51.92 1.46 1.7610 -7 3 1 4 51.98 4.65 1.7591 1 3 2 4 52.24 4.39 1.7511 -3 3 2 4 52.25 1.98 1.7508 -9 1 2 4 53.44 4.80 1.7147 -11 1 1 4 53.47 2.80 1.7137 1 1 3 4 53.96 1.65 1.6992 -8 2 2 4 54.33 5.13 1.6885 -10 0 2 2 55.31 7.37 1.6608 -5 1 3 4 55.47 1.55 1.6566 -6 0 3 2 56.27 4.90 1.6349 3 1 3 4 56.66 1.05 1.6246 4 0 3 2 57.16 1.53 1.6114 9 3 0 4 57.37 8.56 1.6060 -2 2 3 4 57.42 3.35 1.6048 11 1 1 4 57.61 12.82 1.6000 0 2 3 4 57.68 15.35 1.5981 10 2 1 4 58.53 3.73 1.5770 5 3 2 4 59.01 1.92 1.5654 6 4 0 4 59.23 1.37 1.5601 -7 1 3 4 59.24 5.70 1.5598 -7 3 2 4 59.94 1.06 1.5432 -11 1 2 4 60.18 1.18 1.5376 -8 0 3 2 60.59 1.40 1.5282 5 1 3 4 60.70 2.02 1.5257 -6 4 1 4 61.76 1.42 1.5021 6 0 3 2 61.77 3.10 1.5018 -6 2 3 4 62.11 1.13 1.4945 12 2 0 4 62.62 4.59 1.4834 0 4 2 4 62.64 1.09 1.4830 -12 0 2 2 62.73 2.34 1.4811 6 4 1 4 62.74 11.96 1.4810 -2 4 2 4 62.75 19.01 1.4808 -12 2 1 4 62.88 1.59 1.4779 4 2 3 4 62.94 1.08 1.4766 -13 1 1 4 63.99 8.80 1.4551 7 3 2 4 64.07 1.28 1.4534 2 4 2 4 64.88 6.74 1.4371 -9 3 2 4 64.97 2.13 1.4354 -1 3 3 4 65.84 1.60 1.4186 -8 4 1 4 66.20 4.93 1.4116 14 0 0 2 66.70 2.53 1.4022 12 2 1 4 67.02 1.23 1.3963 4 4 2 4 67.59 1.78 1.3861 -5 3 3 4 68.43 1.07 1.3711 8 4 1 4 68.44 1.28 1.3709 3 3 3 4 69.36 2.36 1.3549 -3 5 1 4 69.47 1.77 1.3530 11 3 1 4 69.50 4.62 1.3524 -2 0 4 2 70.03 4.21 1.3435 0 0 4 2 70.31 3.80 1.3389 3 5 1 4 70.45 7.25 1.3366 12 0 2 2 70.46 1.40 1.3364 -4 0 4 2 70.68 1.48 1.3327 9 3 2 4 71.11 1.77 1.3258 -11 1 3 4 71.75 1.27 1.3155 -11 3 2 4 71.84 2.72 1.3141 -14 0 2 2 71.97 1.39 1.3121 14 2 0 4 71.98 1.07 1.3120 -10 2 3 4 72.00 3.29 1.3116 -5 5 1 4 72.03 1.07 1.3111 2 0 4 2 73.18 2.08 1.2933 9 1 3 4 73.56 1.88 1.2875 5 5 1 4 73.83 1.97 1.2835 8 2 3 4 74.51 2.41 1.2735 -13 3 1 4 74.69 1.20 1.2709 7 5 0 4 76.09 1.04 1.2509 1 5 2 4 76.30 1.82 1.2480 -3 5 2 4 78.02 1.68 1.2247 -10 4 2 4 78.13 1.48 1.2232 3 5 2 4 78.50 1.08 1.2185 13 3 1 4 78.98 1.88 1.2122 -12 2 3 4 79.05 1.98 1.2113 5 1 4 4 80.40 1.80 1.1943 9 5 0 4 80.49 1.71 1.1932 -9 1 4 4 81.08 1.93 1.1861 0 6 0 2 81.18 2.24 1.1848 10 2 3 4 81.98 1.88 1.1753 -16 0 2 2 82.19 1.36 1.1729 -7 5 2 4 82.71 1.28 1.1668 16 2 0 4 84.03 1.36 1.1518 15 3 0 4 84.14 1.79 1.1506 9 5 1 4 84.46 2.24 1.1470 2 6 1 4 84.49 1.19 1.1467 7 1 4 4 85.66 1.53 1.1340 -4 6 1 4 85.89 1.27 1.1315 3 3 4 4 86.90 1.77 1.1209 -7 3 4 4 87.22 2.81 1.1177 -14 2 3 4 87.42 1.02 1.1156 11 5 0 4 87.47 1.95 1.1152 16 2 1 4 88.14 1.81 1.1084 -11 5 1 4 88.40 4.23 1.1058 14 4 0 4 89.67 2.17 1.0934 -5 5 3 4 89.78 1.42 1.0923 12 2 3 4 89.88 1.59 1.0914 5 3 4 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.