Litvinskite Yamnova N A, Egorov-Tismenko Y K, Pekov I V, Ekimenkova I A Crystallography Reports 46 (2001) 190-193 Crystal structure of litvinskite: A new natural member of the lovozerite group Locality: Alluaiv mountain, Lovozero massif, Kola Peninsula, Russia _database_code_amcsd 0012370 CELL PARAMETERS: 10.5890 10.2170 7.3550 90.000 92.910 90.000 SPACE GROUP: Cm X-RAY WAVELENGTH: 1.541838 Cell Volume: 794.695 Density (g/cm3): 2.599 MAX. ABS. INTENSITY / VOLUME**2: 9.834046364 RIR: 1.232 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 12.04 42.22 7.3479 1 1 0 2 12.05 27.57 7.3455 0 0 1 1 16.76 100.00 5.2890 -1 1 1 2 16.77 44.94 5.2877 2 0 0 1 17.37 1.61 5.1056 1 1 1 2 20.19 3.33 4.3986 -2 0 1 1 21.18 8.01 4.1940 0 2 1 2 21.20 3.99 4.1917 2 0 1 1 24.23 21.28 3.6740 2 2 0 2 24.23 10.69 3.6728 0 0 2 1 26.75 34.70 3.3333 -2 2 1 2 26.75 31.08 3.3326 -1 1 2 2 26.75 30.49 3.3323 3 1 0 2 27.51 34.26 3.2417 1 3 0 2 27.53 38.66 3.2405 2 2 1 2 27.53 34.11 3.2398 1 1 2 2 29.96 15.15 2.9829 -1 3 1 2 29.96 12.17 2.9821 0 2 2 2 29.97 14.36 2.9813 3 1 1 2 33.90 39.91 2.6445 -2 2 2 2 33.91 20.24 2.6438 4 0 0 1 35.13 14.46 2.5543 0 4 0 2 35.15 28.09 2.5528 2 2 2 2 36.69 2.00 2.4494 -1 3 2 2 36.69 1.45 2.4493 3 3 0 2 36.71 1.35 2.4483 4 0 1 1 39.77 3.98 2.2664 -4 2 1 2 39.78 2.09 2.2662 -2 0 3 1 41.04 1.26 2.1993 -4 0 2 1 43.14 7.91 2.0970 0 4 2 2 43.16 3.95 2.0959 4 0 2 1 43.69 3.89 2.0718 -3 3 2 2 43.70 4.78 2.0715 -2 2 3 2 43.70 4.28 2.0712 5 1 0 2 46.10 2.35 1.9689 -2 4 2 2 46.11 2.66 1.9686 -1 3 3 2 46.12 2.67 1.9680 5 1 1 2 46.83 3.13 1.9402 -1 5 1 2 46.85 3.08 1.9394 1 3 3 2 46.85 2.73 1.9390 4 2 2 2 49.43 1.01 1.8437 -4 0 3 1 49.43 1.54 1.8437 -5 1 2 2 49.63 19.88 1.8370 4 4 0 2 49.64 9.82 1.8364 0 0 4 1 51.71 4.30 1.7679 -1 5 2 2 51.72 4.79 1.7676 0 4 3 2 51.74 4.41 1.7669 5 1 2 2 51.86 3.76 1.7630 -3 3 3 2 51.86 1.02 1.7629 -5 3 1 2 51.87 1.65 1.7626 6 0 0 1 52.16 4.36 1.7536 1 5 2 2 52.19 2.40 1.7526 4 0 3 1 52.79 1.18 1.7342 -4 2 3 2 53.63 1.44 1.7089 3 5 1 2 53.84 1.31 1.7028 0 6 0 2 53.87 3.03 1.7019 3 3 3 2 54.10 1.89 1.6952 -2 4 3 2 56.00 3.44 1.6422 -5 3 2 2 56.00 3.38 1.6420 -3 1 4 2 56.00 3.76 1.6420 -6 2 1 2 57.26 2.03 1.6090 -3 5 2 2 57.27 1.97 1.6086 -1 3 4 2 57.28 2.24 1.6083 6 2 1 2 58.09 2.57 1.5880 -2 6 1 2 58.12 2.19 1.5873 1 3 4 2 58.12 2.23 1.5872 5 3 2 2 58.50 1.85 1.5776 2 6 1 2 58.52 1.66 1.5773 3 5 2 2 58.54 1.65 1.5767 3 1 4 2 59.84 3.58 1.5455 -6 2 2 2 59.85 1.84 1.5455 -4 0 4 1 62.25 2.64 1.4915 -2 6 2 2 62.27 2.70 1.4910 0 4 4 2 62.28 2.65 1.4907 6 2 2 2 63.05 1.97 1.4744 2 6 2 2 63.09 1.04 1.4736 4 0 4 1 63.44 1.00 1.4662 -6 0 3 1 64.19 1.26 1.4509 -5 5 1 2 64.20 1.21 1.4507 6 4 0 2 64.21 1.28 1.4505 -1 1 5 2 64.44 1.92 1.4459 1 7 0 2 64.48 2.09 1.4451 4 4 3 2 64.48 1.92 1.4450 3 3 4 2 67.85 2.14 1.3813 -5 5 2 2 67.87 2.30 1.3810 -2 2 5 2 67.87 2.05 1.3810 7 3 0 2 69.73 2.52 1.3485 3 7 0 2 69.76 2.66 1.3481 5 5 2 2 69.78 2.81 1.3478 2 2 5 2 71.33 2.44 1.3223 -4 4 4 2 71.35 1.21 1.3219 8 0 0 1 74.26 1.44 1.2771 0 8 0 2 74.31 2.82 1.2764 4 4 4 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.