Cancrinite Fechtelkord M, Stief F, Buhl J-C American Mineralogist 86 (2001) 165-175 Sodium cation dynamics in nitrate cancrinite: A low and high temperature Na and H MAS NMR study and high temperature Rietveld structure refinement Sample: T = 296 K _database_code_amcsd 0002623 CELL PARAMETERS: 12.6666 12.6666 5.1808 90.000 90.000 120.000 SPACE GROUP: P6_3 X-RAY WAVELENGTH: 1.541838 Cell Volume: 719.859 Density (g/cm3): 2.403 MAX. ABS. INTENSITY / VOLUME**2: 7.777607007 RIR: 1.054 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.06 1.82 10.9696 1 0 0 6 13.98 38.36 6.3333 1 1 0 6 16.16 4.93 5.4848 2 0 0 6 18.94 79.83 4.6846 1 0 1 6 21.43 13.13 4.1461 1 2 0 6 21.43 3.17 4.1461 2 1 0 6 23.62 3.08 3.7663 2 0 1 6 24.34 68.96 3.6565 3 0 0 6 27.55 47.25 3.2371 1 2 1 6 27.55 52.75 3.2371 2 1 1 6 29.91 3.00 2.9874 3 0 1 6 32.65 36.89 2.7424 4 0 0 6 34.18 6.21 2.6235 1 3 1 6 34.18 10.60 2.6235 3 1 1 6 34.63 33.23 2.5904 0 0 2 1 35.61 5.01 2.5211 1 0 2 6 35.68 1.27 2.5166 2 3 0 6 35.68 1.22 2.5166 3 2 0 6 37.09 40.44 2.4238 4 0 1 6 37.57 1.09 2.3938 4 1 0 6 39.82 9.58 2.2637 2 3 1 6 39.82 4.43 2.2637 3 2 1 6 41.14 1.08 2.1939 5 0 0 6 41.56 6.77 2.1730 1 4 1 6 41.56 6.59 2.1730 4 1 1 6 42.78 11.74 2.1137 3 0 2 6 42.84 16.93 2.1111 3 3 0 6 44.87 6.72 2.0202 5 0 1 6 45.22 1.35 2.0050 2 2 2 6 48.33 11.27 1.8831 4 0 2 6 50.57 4.48 1.8050 2 3 2 6 50.57 4.39 1.8050 3 2 2 6 50.62 3.19 1.8034 3 4 0 6 50.62 2.64 1.8034 4 3 0 6 52.02 3.71 1.7581 1 4 2 6 52.02 4.29 1.7581 4 1 2 6 52.07 2.77 1.7565 2 5 0 6 52.07 5.01 1.7565 5 2 0 6 53.73 2.77 1.7059 1 0 3 6 53.83 3.46 1.7032 3 4 1 6 53.83 1.72 1.7032 4 3 1 6 54.84 1.74 1.6742 5 0 2 6 55.22 2.03 1.6635 2 5 1 6 55.22 3.38 1.6635 5 2 1 6 55.81 3.37 1.6472 2 0 3 6 56.21 3.94 1.6365 3 3 2 6 57.84 6.20 1.5942 1 2 3 6 57.84 6.12 1.5942 2 1 3 6 57.93 2.25 1.5919 1 6 1 6 57.93 1.95 1.5919 6 1 1 6 58.27 6.95 1.5833 4 4 0 6 58.94 1.46 1.5671 3 5 0 6 61.77 1.55 1.5019 1 3 3 6 61.77 2.16 1.5019 3 1 3 6 61.86 4.90 1.5000 7 0 1 6 61.86 4.26 1.5000 3 5 1 6 61.86 2.44 1.5000 5 3 1 6 62.14 6.39 1.4937 6 0 2 6 63.68 9.65 1.4613 4 0 3 6 63.76 2.49 1.4596 2 6 1 6 63.76 1.77 1.4596 6 2 1 6 64.05 1.94 1.4538 5 2 2 6 64.09 1.77 1.4530 1 7 0 6 64.09 4.60 1.4530 7 1 0 6 65.56 2.57 1.4239 2 3 3 6 65.56 1.42 1.4239 3 2 3 6 68.42 1.08 1.3712 8 0 0 6 69.24 1.49 1.3570 5 0 3 6 69.59 9.37 1.3510 4 4 2 6 70.19 1.15 1.3408 7 0 2 6 71.12 11.97 1.3256 8 0 1 6 72.83 1.64 1.2987 1 5 3 6 72.83 1.26 1.2987 5 1 3 6 72.91 1.61 1.2974 2 7 1 6 73.06 2.37 1.2952 0 0 4 1 74.82 1.84 1.2689 1 1 4 6 74.94 1.79 1.2672 1 7 2 6 74.94 3.90 1.2672 7 1 2 6 76.35 2.29 1.2473 3 4 3 6 76.35 1.99 1.2473 4 3 3 6 76.43 2.31 1.2462 8 1 1 6 78.31 1.18 1.2209 3 0 4 6 78.43 2.12 1.2194 3 6 2 6 78.43 3.28 1.2194 6 3 2 6 79.01 1.18 1.2119 8 0 2 6 79.90 1.04 1.2006 3 7 1 6 80.04 1.12 1.1988 2 2 4 6 82.33 1.57 1.1712 4 0 4 6 82.76 1.05 1.1662 2 8 1 6 83.26 2.26 1.1605 7 0 3 6 84.04 1.42 1.1516 3 2 4 6 84.96 1.74 1.1415 6 2 3 6 84.96 2.19 1.1415 2 6 3 6 85.86 1.20 1.1318 4 6 2 6 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.