Analcime Likhachieva A Y, Rashchenko S V, Seryotkin Y V Mineralogical Magazine 76 (2012) 129-142 The deformation mechanism of a pressure-induced phase transition in dehydrated analcime Note: dehydrated, P = 0.9 GPa Locality: Nidym River, East Siberia, Russia _database_code_amcsd 0019000 CELL PARAMETERS: 18.4680 18.4680 11.6010 90.000 90.000 120.000 SPACE GROUP: R3 X-RAY WAVELENGTH: 1.541838 Cell Volume: 3426.619 Density (g/cm3): 2.357 MAX. ABS. INTENSITY / VOLUME**2: 12.23938697 RIR: 1.691 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.42 1.44 9.3907 1 0 1 3 9.58 1.56 9.2340 1 1 0 3 13.45 3.58 6.5841 0 2 1 3 16.25 43.19 5.4530 0 1 2 3 16.54 37.36 5.3609 2 1 1 3 16.54 43.29 5.3609 3 -1 1 3 16.63 47.16 5.3313 3 0 0 3 18.90 1.88 4.6954 2 0 2 3 19.22 1.41 4.6170 2 2 0 3 21.23 1.46 4.1854 1 2 2 3 21.45 1.48 4.1433 1 3 1 3 21.45 1.08 4.1433 -1 4 1 3 23.00 1.69 3.8670 0 0 3 1 24.96 2.60 3.5669 2 -1 3 3 25.28 3.28 3.5236 3 1 2 3 25.28 2.67 3.5236 4 -1 2 3 25.46 3.05 3.4984 3 2 1 3 25.52 4.06 3.4901 1 4 0 3 25.52 1.19 3.4901 4 1 0 3 27.09 100.00 3.2921 0 4 2 3 28.79 2.40 3.1009 -2 5 2 3 30.15 4.52 2.9645 4 -2 3 3 30.56 1.35 2.9249 2 4 1 3 30.56 1.35 2.9249 -2 6 1 3 31.35 7.46 2.8537 1 0 4 3 31.95 5.47 2.8011 5 0 2 3 32.10 8.48 2.7884 5 1 1 3 32.10 6.20 2.7884 6 -1 1 3 33.43 2.45 2.6805 6 -2 2 3 33.62 3.02 2.6656 6 0 0 3 34.29 5.72 2.6149 3 -1 4 3 34.62 2.90 2.5909 1 4 3 3 34.62 1.34 2.5909 -1 5 3 3 34.62 5.90 2.5909 5 -1 3 3 34.62 3.35 2.5909 4 1 3 3 34.99 4.62 2.5643 4 3 1 3 34.99 1.84 2.5643 7 -3 1 3 35.04 2.66 2.5611 2 5 0 3 35.04 1.57 2.5611 5 2 0 3 37.03 3.68 2.4275 1 3 4 3 37.03 5.31 2.4275 -1 4 4 3 37.34 2.11 2.4082 3 3 3 3 37.34 6.47 2.4082 6 -3 3 3 37.56 3.82 2.3948 -3 7 2 3 37.56 1.87 2.3948 3 4 2 3 37.69 2.99 2.3868 -1 7 1 3 37.69 2.83 2.3868 1 6 1 3 39.02 5.51 2.3085 4 4 0 3 40.48 1.12 2.2283 2 0 5 3 42.05 1.16 2.1486 0 5 4 3 42.33 2.85 2.1352 -2 7 3 3 42.33 1.97 2.1352 5 2 3 3 42.52 3.91 2.1258 0 7 2 3 43.23 2.64 2.0927 2 4 4 3 46.30 1.05 1.9610 -2 5 5 3 46.63 1.34 1.9480 4 3 4 3 46.63 1.12 1.9480 7 -3 4 3 47.00 1.26 1.9335 0 0 6 1 50.19 1.15 1.8177 0 3 6 3 50.19 1.63 1.8177 3 0 6 3 50.36 1.61 1.8121 -4 10 1 3 50.36 1.76 1.8121 4 6 1 3 51.11 2.01 1.7870 6 3 3 3 52.30 1.57 1.7492 6 4 2 3 54.23 1.94 1.6913 -1 5 6 3 54.88 1.29 1.6728 9 -4 4 3 55.11 1.74 1.6665 5 5 3 3 55.37 1.60 1.6594 -1 10 1 3 55.37 3.09 1.6594 1 9 1 3 55.37 1.85 1.6594 11 -5 1 3 55.85 1.58 1.6460 0 8 4 3 56.18 1.33 1.6373 3 3 6 3 56.53 1.39 1.6280 8 -3 5 3 56.53 1.46 1.6280 5 3 5 3 57.19 1.33 1.6107 -5 11 2 3 57.29 1.42 1.6082 -3 11 1 3 57.48 1.16 1.6033 2 6 5 3 59.02 1.08 1.5651 6 0 6 3 59.95 1.17 1.5431 -2 7 6 3 60.28 1.19 1.5353 -4 9 5 3 60.28 1.20 1.5353 4 5 5 3 65.34 1.52 1.4281 1 7 6 3 65.34 1.45 1.4281 -1 8 6 3 65.66 2.26 1.4219 -3 10 5 3 66.13 1.86 1.4131 1 10 3 3 67.86 1.20 1.3811 9 3 3 3 69.38 1.03 1.3546 -5 12 4 3 69.38 1.15 1.3546 5 7 4 3 69.80 1.56 1.3474 10 3 1 3 72.33 1.48 1.3063 -6 14 1 3 72.51 1.06 1.3036 2 9 5 3 73.17 1.26 1.2934 9 5 1 3 73.17 1.36 1.2934 14 -5 1 3 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.