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 = 573 K, crystal III, "metanatrolite" _database_code_amcsd 0014891 CELL PARAMETERS: 16.2920 17.0840 6.4490 90.000 90.000 90.000 SPACE GROUP: F2 X-RAY WAVELENGTH: 1.541838 Cell Volume: 1794.966 Density (g/cm3): 2.533 MAX. ABS. INTENSITY / VOLUME**2: 5.916791636 RIR: 0.760 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 15.03 70.57 5.8951 -2 2 0 2 15.03 29.43 5.8951 2 2 0 2 15.66 35.74 5.6579 1 1 1 2 15.66 25.45 5.6579 1 -1 1 2 20.80 11.12 4.2710 0 4 0 2 21.52 19.52 4.1293 1 3 1 2 21.52 19.88 4.1293 -1 3 1 2 21.82 6.51 4.0730 4 0 0 2 22.02 38.89 4.0364 3 1 1 2 22.02 43.46 4.0364 3 -1 1 2 23.52 4.49 3.7826 -2 4 0 2 23.52 9.12 3.7826 2 4 0 2 24.21 4.20 3.6765 4 2 0 2 24.21 11.37 3.6765 -4 2 0 2 26.56 9.23 3.3560 3 -3 1 2 26.56 6.42 3.3560 3 3 1 2 29.61 43.43 3.0167 0 2 2 2 29.80 42.24 2.9982 2 0 2 2 30.10 24.34 2.9687 1 5 1 2 30.10 17.04 2.9687 -1 5 1 2 30.32 5.38 2.9476 4 4 0 2 30.32 16.82 2.9476 -4 4 0 2 31.20 16.22 2.8670 5 1 1 2 31.20 15.70 2.8670 5 -1 1 2 31.42 1.10 2.8473 0 6 0 2 31.63 3.74 2.8290 2 2 2 2 31.63 4.72 2.8290 2 -2 2 2 32.99 3.88 2.7153 6 0 0 2 33.33 2.82 2.6879 -2 6 0 2 33.97 17.81 2.6388 -3 5 1 2 33.97 19.76 2.6388 3 5 1 2 34.63 18.42 2.5900 5 3 1 2 34.63 10.32 2.5900 5 -3 1 2 34.66 7.98 2.5877 6 2 0 2 36.62 6.06 2.4539 2 4 2 2 36.62 16.53 2.4539 -2 4 2 2 37.09 5.67 2.4242 4 2 2 2 37.09 1.39 2.4242 4 -2 2 2 39.32 2.36 2.2914 6 4 0 2 39.88 6.12 2.2605 1 7 1 2 39.88 10.90 2.2605 -1 7 1 2 40.74 2.06 2.2146 5 5 1 2 41.51 2.34 2.1756 4 -4 2 2 41.51 2.87 2.1756 4 4 2 2 41.59 5.35 2.1715 7 1 1 2 41.59 6.34 2.1715 7 -1 1 2 42.98 2.35 2.1043 -3 7 1 2 43.83 2.95 2.0657 -2 8 0 2 43.85 3.97 2.0646 2 6 2 2 44.91 6.80 2.0182 6 -2 2 2 45.44 1.38 1.9960 1 3 3 2 45.44 2.48 1.9960 -1 3 3 2 45.70 3.66 1.9852 3 1 3 2 45.70 1.39 1.9852 3 -1 3 2 45.80 2.79 1.9810 8 2 0 2 48.11 1.36 1.8913 4 8 0 2 48.13 4.31 1.8905 4 6 2 2 48.13 1.13 1.8905 -4 6 2 2 48.75 1.14 1.8678 6 4 2 2 48.75 4.55 1.8678 6 -4 2 2 49.59 2.57 1.8382 -8 4 0 2 50.43 1.22 1.8097 1 9 1 2 50.43 4.44 1.8097 -1 9 1 2 50.47 1.05 1.8083 1 5 3 2 50.47 2.30 1.8083 -1 5 3 2 51.19 3.87 1.7845 5 1 3 2 51.19 2.70 1.7845 5 -1 3 2 52.80 3.56 1.7339 9 1 1 2 52.80 1.28 1.7339 9 -1 1 2 53.04 1.17 1.7265 -3 9 1 2 53.55 1.40 1.7114 5 3 3 2 54.35 1.13 1.6879 8 -2 2 2 54.70 1.73 1.6780 6 -6 2 2 54.91 1.48 1.6720 -2 10 0 2 54.91 5.82 1.6720 2 10 0 2 57.13 6.81 1.6122 0 0 4 1 57.40 2.69 1.6053 1 7 3 2 57.40 2.00 1.6053 -1 7 3 2 57.60 2.35 1.6004 10 2 0 2 57.60 3.63 1.6004 -10 2 0 2 58.72 1.26 1.5724 7 -1 3 2 60.88 2.28 1.5217 7 3 3 2 61.42 1.34 1.5096 0 10 2 2 62.37 1.48 1.4889 6 8 2 2 62.37 1.48 1.4889 -6 8 2 2 62.58 1.37 1.4843 2 10 2 2 62.58 1.89 1.4843 -2 10 2 2 63.08 1.47 1.4738 -8 8 0 2 63.08 1.42 1.4738 8 8 0 2 63.10 2.27 1.4734 8 6 2 2 63.10 1.66 1.4734 8 -6 2 2 64.03 1.54 1.4541 10 0 2 2 65.07 2.17 1.4335 10 2 2 2 65.07 1.20 1.4335 7 5 3 2 65.85 1.03 1.4183 9 -7 1 2 65.89 1.66 1.4175 1 9 3 2 65.89 4.02 1.4175 -1 9 3 2 66.00 2.62 1.4155 -4 10 2 2 66.00 1.43 1.4155 4 10 2 2 66.05 3.92 1.4145 4 4 4 2 66.05 3.95 1.4145 4 -4 4 2 67.92 3.69 1.3801 9 1 3 2 67.92 1.44 1.3801 9 -1 3 2 68.12 1.58 1.3765 10 4 2 2 68.49 1.75 1.3700 5 11 1 2 68.58 1.16 1.3684 6 2 4 2 70.22 2.22 1.3404 8 8 2 2 70.22 1.35 1.3404 8 -8 2 2 70.87 1.08 1.3297 11 -5 1 2 74.68 1.12 1.2710 -2 8 4 2 75.95 1.24 1.2529 3 13 1 2 76.41 1.14 1.2464 6 -6 4 2 76.41 1.32 1.2464 6 6 4 2 77.02 1.02 1.2381 12 2 2 2 77.85 1.02 1.2270 -4 8 4 2 78.84 1.17 1.2140 -7 9 3 2 79.75 1.48 1.2025 13 -3 1 2 84.28 1.16 1.1490 11 -9 1 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.