Ferrierite-Mg Alberti A, Sabelli C Zeitschrift fur Kristallographie 178 (1987) 249-256 Statistical and true symmetry of ferrierite: possible absence of straight T-O-T bridging bonds Locality: Monastir, Sardinia, Italy _database_code_amcsd 0010964 CELL PARAMETERS: 19.2310 14.1450 7.4990 90.000 90.000 90.000 SPACE GROUP: Immm X-RAY WAVELENGTH: 1.541838 Cell Volume: 2039.897 Density (g/cm3): 2.228 MAX. ABS. INTENSITY / VOLUME**2: 3.725015987 RIR: 0.544 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 7.76 15.03 11.3946 1 1 0 4 9.20 100.00 9.6155 2 0 0 2 12.52 6.24 7.0725 0 2 0 2 12.67 13.92 6.9866 1 0 1 4 13.36 32.03 6.6255 0 1 1 4 15.17 26.17 5.8387 3 1 0 4 17.85 19.45 4.9704 1 2 1 8 18.21 2.23 4.8727 3 0 1 4 18.45 1.42 4.8078 4 0 0 2 19.38 5.10 4.5794 1 3 0 4 22.15 71.17 4.0125 3 2 1 8 22.27 23.70 3.9916 0 3 1 4 22.36 69.16 3.9761 4 2 0 4 22.85 40.58 3.8912 4 1 1 8 23.42 45.79 3.7982 3 3 0 4 23.73 16.14 3.7495 0 0 2 2 23.98 26.38 3.7114 5 1 0 4 25.00 68.88 3.5616 1 1 2 8 25.18 97.57 3.5363 0 4 0 2 25.50 88.36 3.4933 2 0 2 4 26.04 13.37 3.4223 5 0 1 4 26.86 19.08 3.3189 2 4 0 4 26.91 1.17 3.3127 0 2 2 4 27.83 4.58 3.2052 6 0 0 2 28.29 4.80 3.1551 1 4 1 8 28.29 34.62 3.1550 3 1 2 8 28.50 11.81 3.1321 2 2 2 8 28.98 34.91 3.0806 5 2 1 8 29.08 1.78 3.0711 4 3 1 8 29.98 35.42 2.9804 5 3 0 4 30.23 14.06 2.9567 4 0 2 4 30.62 1.56 2.9194 6 2 0 4 30.82 15.44 2.9011 1 3 2 8 30.99 2.82 2.8853 6 1 1 8 31.40 1.44 2.8487 4 4 0 4 32.83 17.68 2.7279 4 2 2 8 33.22 2.74 2.6969 7 1 0 4 33.87 17.09 2.6469 0 5 1 4 33.99 1.87 2.6377 5 1 2 8 34.66 8.80 2.5882 3 5 0 4 34.78 1.58 2.5796 7 0 1 4 34.88 5.39 2.5726 0 4 2 4 35.17 1.29 2.5520 2 5 1 8 36.14 2.67 2.4852 2 4 2 8 36.89 13.67 2.4363 6 0 2 4 37.10 4.22 2.4235 7 2 1 8 37.89 1.02 2.3748 6 4 0 4 37.90 18.15 2.3737 7 3 0 4 38.48 4.10 2.3393 1 2 3 8 38.84 7.18 2.3187 4 5 1 8 39.74 3.88 2.2683 4 4 2 8 39.89 2.62 2.2597 8 1 1 8 40.21 1.68 2.2429 1 5 2 8 40.38 1.01 2.2338 1 6 1 8 41.20 2.13 2.1910 4 1 3 8 41.97 5.21 2.1525 2 3 3 8 42.44 1.57 2.1300 3 5 2 8 42.60 2.79 2.1222 3 6 1 8 42.72 10.28 2.1167 4 6 0 4 42.80 2.50 2.1128 9 1 0 4 44.07 3.85 2.0550 9 0 1 4 44.39 1.80 2.0409 6 5 1 8 44.64 1.11 2.0298 1 4 3 8 44.78 1.54 2.0237 8 0 2 4 45.12 11.36 2.0095 5 2 3 8 45.19 6.06 2.0063 6 4 2 8 45.63 3.29 1.9880 8 4 0 4 45.99 4.92 1.9734 9 2 1 8 46.52 2.24 1.9522 6 1 3 8 46.55 4.11 1.9511 0 7 1 4 46.64 1.03 1.9474 5 5 2 8 46.67 3.35 1.9462 9 3 0 4 47.16 8.06 1.9272 3 7 0 4 47.27 1.15 1.9231 10 0 0 2 48.56 21.62 1.8748 0 0 4 2 49.26 1.17 1.8499 1 1 4 8 49.45 1.32 1.8433 4 6 2 8 49.58 1.39 1.8386 2 5 3 8 50.16 2.87 1.8186 6 3 3 8 51.06 9.60 1.7889 5 7 0 4 51.06 7.96 1.7888 7 2 3 8 51.18 2.17 1.7850 3 1 4 8 51.34 4.52 1.7795 8 5 1 8 51.60 4.81 1.7713 1 7 2 8 51.70 1.15 1.7681 0 8 0 2 52.07 1.33 1.7564 8 4 2 8 52.84 1.22 1.7325 10 3 1 8 53.01 1.64 1.7274 9 3 2 8 53.46 1.25 1.7141 3 7 2 8 54.59 2.03 1.6811 3 3 4 8 54.86 1.72 1.6734 5 1 4 8 55.27 3.39 1.6621 3 8 1 8 55.36 2.24 1.6595 4 8 0 4 55.46 1.28 1.6568 3 6 3 8 55.48 3.69 1.6564 0 4 4 4 55.51 1.66 1.6553 11 2 1 8 56.11 3.46 1.6392 11 3 0 4 56.54 4.27 1.6278 7 7 0 4 56.67 3.61 1.6242 9 0 3 4 56.94 4.61 1.6173 6 5 3 8 57.51 4.26 1.6026 12 0 0 2 58.13 2.11 1.5869 5 3 4 8 58.97 1.71 1.5664 5 6 3 8 58.98 1.19 1.5660 4 4 4 8 59.61 3.82 1.5509 2 7 3 8 60.11 1.29 1.5394 7 1 4 8 60.15 1.26 1.5382 0 9 1 4 60.67 1.54 1.5265 3 9 0 4 61.76 9.61 1.5020 11 3 2 8 62.45 1.94 1.4872 12 3 1 8 62.97 4.69 1.4760 9 4 3 8 63.20 4.13 1.4712 7 3 4 8 63.35 4.13 1.4682 9 7 0 4 63.50 1.83 1.4651 4 9 1 8 64.00 1.28 1.4548 7 6 3 8 64.22 1.28 1.4503 10 3 3 8 64.38 1.01 1.4471 8 2 4 8 64.76 2.63 1.4395 1 8 3 8 65.11 3.05 1.4326 11 0 3 4 65.19 7.58 1.4310 6 8 2 8 65.24 5.59 1.4302 3 2 5 8 65.28 2.89 1.4292 0 3 5 4 65.53 2.26 1.4245 4 1 5 8 65.54 3.26 1.4243 8 8 0 4 66.05 4.95 1.4145 0 10 0 2 66.09 1.17 1.4137 2 3 5 8 66.60 2.72 1.4041 11 2 3 8 66.97 1.24 1.3973 5 0 5 4 68.44 1.73 1.3709 12 5 1 8 68.44 6.15 1.3708 5 2 5 8 69.05 1.05 1.3602 12 4 2 8 69.52 1.13 1.3522 6 1 5 8 69.74 1.55 1.3484 14 2 0 4 70.01 1.08 1.3438 3 7 4 8 70.76 1.59 1.3315 8 8 2 8 71.15 2.14 1.3251 0 5 5 4 72.03 2.25 1.3111 2 10 2 8 73.12 2.30 1.2942 5 7 4 8 73.41 2.11 1.2898 14 0 2 4 74.24 2.15 1.2775 4 5 5 8 74.83 3.35 1.2689 14 2 2 8 76.38 7.42 1.2469 11 7 2 8 76.69 1.07 1.2426 4 8 4 8 77.07 1.30 1.2375 13 5 2 8 77.69 2.15 1.2291 7 7 4 8 77.73 1.55 1.2285 1 10 3 8 77.80 2.14 1.2276 9 0 5 4 78.03 2.03 1.2246 6 5 5 8 78.13 2.50 1.2233 6 10 2 8 78.45 1.26 1.2191 8 10 0 4 78.52 2.38 1.2182 12 0 4 4 79.19 1.02 1.2095 9 2 5 8 79.24 1.35 1.2090 3 10 3 8 79.26 1.38 1.2087 15 1 2 8 79.60 2.10 1.2043 0 7 5 4 80.35 1.26 1.1950 3 11 2 8 82.63 1.00 1.1677 15 5 0 4 83.26 2.61 1.1605 8 5 5 8 83.36 1.20 1.1594 8 10 2 8 83.66 1.16 1.1559 9 7 4 8 86.12 2.27 1.1292 0 10 4 4 86.42 2.10 1.1260 3 8 5 8 88.21 1.74 1.1077 14 5 3 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.