Metanatrolite Baur W H, Joswig W Neues Jahrbuch fur Mineralogie, Monatshefte 1996 (1996) 171-187 The phases of natrolite occurring during dehydration and rehydration studied by single crystal X-ray diffraction methods between room temperature and 923 K Locality: Khibiny, Kola peninsula, Russia Sample: T = 723 K, crystal II, "metanatrolite" _database_code_amcsd 0014889 CELL PARAMETERS: 16.5750 17.4270 6.4610 90.000 90.000 90.000 SPACE GROUP: F2 X-RAY WAVELENGTH: 1.541838 Cell Volume: 1866.276 Density (g/cm3): 2.420 MAX. ABS. INTENSITY / VOLUME**2: 6.758863691 RIR: 0.909 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 14.75 59.63 6.0051 -2 2 0 2 14.75 40.37 6.0051 2 2 0 2 15.57 27.97 5.6899 1 -1 1 2 15.57 29.10 5.6899 1 1 1 2 20.38 9.72 4.3568 0 4 0 2 21.26 17.92 4.1801 1 3 1 2 21.26 18.31 4.1801 -1 3 1 2 21.44 4.82 4.1438 4 0 0 2 21.77 29.89 4.0822 3 -1 1 2 21.77 29.56 4.0822 3 1 1 2 23.06 6.41 3.8563 -2 4 0 2 23.06 10.43 3.8563 2 4 0 2 23.78 7.43 3.7422 4 2 0 2 23.78 11.37 3.7422 -4 2 0 2 26.19 4.61 3.4031 3 -3 1 2 26.19 3.35 3.4031 3 3 1 2 29.49 33.21 3.0290 0 2 2 2 29.62 20.44 3.0163 1 5 1 2 29.62 11.90 3.0163 -1 5 1 2 29.68 27.43 3.0099 2 0 2 2 29.76 6.92 3.0026 4 4 0 2 29.76 9.68 3.0026 -4 4 0 2 30.75 15.05 2.9081 5 1 1 2 30.75 15.54 2.9081 5 -1 1 2 31.44 5.07 2.8450 2 -2 2 2 31.44 4.41 2.8450 2 2 2 2 32.41 2.07 2.7625 6 0 0 2 32.67 1.89 2.7410 -2 6 0 2 33.41 17.23 2.6819 3 5 1 2 33.41 14.54 2.6819 -3 5 1 2 34.05 3.15 2.6333 6 2 0 2 34.09 16.06 2.6299 5 3 1 2 34.09 13.03 2.6299 5 -3 1 2 36.28 1.34 2.4764 2 4 2 2 36.28 8.66 2.4764 -2 4 2 2 36.75 6.13 2.4454 4 2 2 2 37.83 1.09 2.3784 -4 6 0 2 38.59 2.56 2.3330 6 4 0 2 39.16 6.12 2.3006 1 7 1 2 39.16 9.04 2.3006 -1 7 1 2 40.05 1.34 2.2515 5 5 1 2 40.92 3.74 2.2054 7 1 1 2 40.92 3.67 2.2054 7 -1 1 2 41.04 2.59 2.1993 4 4 2 2 41.04 1.91 2.1993 4 -4 2 2 42.93 2.90 2.1068 -2 8 0 2 43.29 3.67 2.0901 2 6 2 2 44.38 5.33 2.0411 6 -2 2 2 44.38 1.43 2.0411 6 2 2 2 44.97 3.05 2.0157 8 2 0 2 44.97 1.33 2.0157 -8 2 0 2 45.24 1.67 2.0045 1 3 3 2 45.24 2.18 2.0045 -1 3 3 2 45.50 2.58 1.9934 3 1 3 2 45.50 1.35 1.9934 3 -1 3 2 47.47 2.96 1.9153 4 6 2 2 48.11 2.15 1.8914 6 -4 2 2 48.66 1.61 1.8711 -8 4 0 2 49.44 2.13 1.8433 -1 9 1 2 50.09 1.47 1.8210 -1 5 3 2 50.83 2.49 1.7964 5 1 3 2 50.83 1.76 1.7964 5 -1 3 2 51.89 1.63 1.7620 9 1 1 2 53.11 1.49 1.7246 5 3 3 2 53.59 1.08 1.7101 8 -2 2 2 53.75 1.47 1.7054 -2 10 0 2 53.75 3.97 1.7054 2 10 0 2 56.52 1.58 1.6283 10 2 0 2 56.52 2.41 1.6283 -10 2 0 2 56.80 1.97 1.6210 1 7 3 2 56.80 1.17 1.6210 -1 7 3 2 57.02 3.39 1.6152 0 0 4 1 58.14 1.02 1.5866 7 -1 3 2 60.23 1.60 1.5365 7 3 3 2 60.35 1.71 1.5338 0 10 2 2 61.32 1.07 1.5117 -6 8 2 2 61.48 1.02 1.5082 -2 10 2 2 62.08 1.03 1.4952 8 6 2 2 63.03 1.65 1.4747 10 0 2 2 64.04 1.16 1.4540 10 2 2 2 64.82 1.33 1.4384 -4 10 2 2 65.01 1.16 1.4345 1 9 3 2 65.01 2.24 1.4345 -1 9 3 2 65.63 2.04 1.4225 4 -4 4 2 65.63 2.59 1.4225 4 4 4 2 67.08 1.83 1.3952 9 1 3 2 68.98 1.48 1.3614 8 8 2 2 68.98 1.08 1.3614 8 -8 2 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.