Meionite Sherriff B L, Sokolova E V, Kabalov Y K, Jenkins D M, Kunath-Fandrei G, Goetz S, Jager C, Schneider J The Canadian Mineralogist 38 (2000) 1201-1213 Meionite: Rietveld structure-refinement, Si MAS and Al SATRAS NMR spectroscopy, and comments on the marialite-meionite series Note: sample SL-1 Locality: Slyudyanka mineral deposit, eastern Siberia, Russia _database_code_amcsd 0005696 CELL PARAMETERS: 12.1637 12.1637 7.5739 90.000 90.000 90.000 SPACE GROUP: I4/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 1120.601 Density (g/cm3): 2.635 MAX. ABS. INTENSITY / VOLUME**2: 9.127996183 RIR: 1.128 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.28 19.38 8.6010 1 1 0 4 13.77 12.36 6.4294 1 0 1 8 14.56 28.47 6.0819 2 0 0 4 20.10 11.06 4.4183 2 1 1 8 20.10 5.11 4.4183 1 2 1 8 20.65 3.66 4.3005 2 2 0 4 23.12 4.25 3.8465 1 3 0 4 23.12 24.39 3.8465 3 1 0 4 24.91 8.27 3.5746 3 0 1 8 25.70 100.00 3.4659 1 1 2 8 27.75 4.75 3.2147 2 0 2 8 28.97 91.05 3.0817 2 3 1 8 29.37 43.78 3.0409 4 0 0 4 31.20 4.73 2.8670 3 3 0 4 31.48 2.73 2.8421 2 2 2 8 32.57 12.65 2.7490 1 4 1 8 32.93 5.30 2.7199 2 4 0 4 33.20 51.47 2.6986 3 1 2 8 33.20 2.29 2.6986 1 3 2 8 37.71 2.15 2.3855 5 1 0 4 38.88 12.24 2.3162 4 3 1 8 38.88 2.66 2.3162 3 4 1 8 39.42 1.43 2.2858 3 3 2 8 40.85 3.12 2.2091 4 2 2 8 41.73 4.40 2.1645 5 2 1 8 41.73 5.91 2.1645 2 5 1 8 42.02 2.51 2.1503 4 4 0 4 42.17 16.09 2.1431 3 0 3 8 43.38 4.70 2.0861 3 5 0 4 44.84 4.47 2.0213 3 2 3 8 44.84 4.11 2.0213 2 3 3 8 44.91 3.11 2.0184 5 1 2 8 44.91 5.34 2.0184 1 5 2 8 47.00 8.18 1.9334 6 1 1 8 47.00 2.62 1.9334 1 6 1 8 47.26 7.55 1.9232 6 2 0 4 47.40 3.34 1.9181 4 1 3 8 47.40 13.06 1.9181 1 4 3 8 48.05 13.84 1.8935 0 0 4 2 49.47 2.88 1.8426 5 4 1 8 49.47 1.61 1.8426 4 5 1 8 49.91 3.03 1.8272 3 5 2 8 51.85 2.32 1.7634 6 3 1 8 51.85 2.29 1.7634 3 6 1 8 52.22 2.30 1.7518 5 0 3 8 53.25 1.94 1.7202 1 7 0 4 53.25 6.21 1.7202 7 1 0 4 53.43 2.97 1.7148 2 6 2 8 54.39 2.86 1.6868 4 6 0 4 56.39 3.80 1.6316 2 7 1 8 57.32 4.15 1.6073 4 0 4 8 58.92 7.58 1.5675 1 6 3 8 61.04 6.19 1.5179 5 4 3 8 62.64 2.11 1.4831 5 1 4 8 62.80 1.86 1.4797 4 7 1 8 63.18 2.86 1.4716 7 3 2 8 63.18 3.12 1.4716 3 7 2 8 63.78 2.19 1.4593 1 2 5 8 65.07 4.60 1.4335 6 6 0 4 65.17 2.49 1.4314 7 0 3 8 65.82 2.29 1.4190 3 0 5 8 66.08 2.63 1.4140 7 5 0 4 67.19 2.12 1.3933 2 7 3 8 67.82 8.45 1.3819 2 3 5 8 68.23 10.25 1.3745 8 2 2 8 68.23 6.45 1.3745 2 8 2 8 69.07 1.15 1.3599 8 4 0 4 69.69 2.71 1.3493 6 2 4 8 70.05 3.08 1.3433 1 9 0 4 70.82 1.19 1.3305 9 0 1 8 71.13 4.05 1.3255 5 6 3 8 73.67 2.71 1.2859 4 3 5 8 74.07 1.23 1.2799 8 4 2 8 74.53 1.29 1.2732 7 1 4 8 74.53 1.01 1.2732 1 7 4 8 75.28 1.82 1.2623 0 0 6 2 79.35 2.38 1.2075 6 1 5 8 81.46 1.55 1.1814 5 9 0 4 82.54 2.52 1.1687 7 7 2 8 83.08 1.30 1.1625 6 3 5 8 83.47 1.31 1.1581 8 6 2 8 84.83 1.22 1.1429 6 6 4 8 84.93 1.22 1.1418 7 0 5 8 86.78 1.07 1.1222 2 7 5 8 89.44 1.04 1.0956 1 9 4 8 89.88 1.66 1.0914 10 1 3 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.