Gismondine Wadoski-Romeijn E, Armbruster T American Mineralogist 98 (2013) 1988-1997 Topotactic transformation and dehydration of the zeolite gismondine to a novel Ca feldspar structure Note: T = 150 C, Phase C, Path 1 Locality: Rio Pian del Foco, Genova province, Italy _database_code_amcsd 0020101 CELL PARAMETERS: 13.9014 8.9469 13.9697 90.000 90.000 90.000 SPACE GROUP: P2_12_12_1 X-RAY WAVELENGTH: 1.541838 Cell Volume: 1737.474 Density (g/cm3): 2.426 MAX. ABS. INTENSITY / VOLUME**2: 5.338418081 RIR: 0.716 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 11.76 10.66 7.5234 1 1 0 4 12.74 2.19 6.9507 2 0 0 2 13.37 55.86 6.6239 1 1 1 4 14.23 20.28 6.2230 2 0 1 4 16.10 6.25 5.5057 0 1 2 4 16.15 6.91 5.4889 2 1 0 4 17.32 16.52 5.1188 1 1 2 4 17.36 1.89 5.1087 2 1 1 4 18.00 19.35 4.9269 2 0 2 4 19.85 1.07 4.4735 0 2 0 2 20.11 1.58 4.4154 1 0 3 4 20.58 88.06 4.3158 2 1 2 4 20.85 10.76 4.2603 0 2 1 4 20.86 2.10 4.2584 1 2 0 4 21.60 9.67 4.1147 3 1 0 4 21.82 13.26 4.0733 1 2 1 4 22.45 7.75 3.9595 1 1 3 4 22.53 4.77 3.9470 3 1 1 4 22.99 8.27 3.8686 2 0 3 4 23.03 3.78 3.8614 3 0 2 4 23.62 18.39 3.7671 0 2 2 4 23.65 10.46 3.7617 2 2 0 4 24.48 2.59 3.6360 1 2 2 4 24.51 1.06 3.6323 2 2 1 4 25.08 2.68 3.5509 2 1 3 4 25.12 2.19 3.5453 3 1 2 4 26.31 2.51 3.3872 1 0 4 4 26.43 1.20 3.3726 4 0 1 4 26.92 9.27 3.3119 2 2 2 4 27.65 1.33 3.2260 0 2 3 4 27.72 2.35 3.2184 3 2 0 4 28.17 2.86 3.1678 1 1 4 4 28.28 2.20 3.1558 4 1 1 4 28.40 44.70 3.1425 1 2 3 4 28.46 34.53 3.1362 3 2 1 4 28.60 3.28 3.1206 2 0 4 4 28.69 2.87 3.1115 4 0 2 4 28.96 100.00 3.0834 3 1 3 4 30.33 26.15 2.9466 2 1 4 4 30.42 30.31 2.9388 4 1 2 4 30.55 1.13 2.9262 2 2 3 4 30.58 1.49 2.9230 3 2 2 4 30.65 2.13 2.9166 0 3 1 4 31.34 25.24 2.8544 1 3 1 4 32.53 6.33 2.7528 0 2 4 4 32.63 5.55 2.7445 4 2 0 4 32.65 5.25 2.7428 0 3 2 4 32.67 10.34 2.7407 2 3 0 4 32.85 1.95 2.7268 5 0 1 4 33.18 1.16 2.7004 1 2 4 4 33.27 1.17 2.6930 4 2 1 4 33.30 1.08 2.6909 1 3 2 4 33.32 4.11 2.6894 2 3 1 4 33.66 2.09 2.6626 3 1 4 4 33.70 3.99 2.6593 4 1 3 4 33.86 7.32 2.6476 3 2 3 4 34.73 1.48 2.5832 5 0 2 4 35.06 7.31 2.5594 2 2 4 4 35.13 5.23 2.5544 4 2 2 4 36.35 1.12 2.4714 1 3 3 4 36.47 14.71 2.4635 4 0 4 4 37.59 2.04 2.3927 3 0 5 4 37.68 2.66 2.3872 5 0 3 4 37.88 19.72 2.3751 4 1 4 4 38.10 1.22 2.3619 2 3 3 4 38.54 2.23 2.3360 1 2 5 4 38.67 1.63 2.3283 5 2 1 4 38.97 10.47 2.3114 3 1 5 4 39.05 8.33 2.3065 5 1 3 4 39.74 4.17 2.2679 0 3 4 4 39.83 2.51 2.2632 4 3 0 4 40.32 2.91 2.2367 0 4 0 2 40.74 1.10 2.2146 6 1 1 4 40.87 3.49 2.2080 3 3 3 4 41.39 3.36 2.1812 1 4 1 4 41.86 3.65 2.1579 4 2 4 4 41.90 8.54 2.1561 2 3 4 4 41.96 9.75 2.1530 4 3 2 4 42.16 1.55 2.1434 2 1 6 4 42.32 1.53 2.1355 6 1 2 4 42.78 1.56 2.1136 5 1 4 4 42.86 1.70 2.1098 3 2 5 4 42.94 2.60 2.1061 5 2 3 4 42.97 1.63 2.1049 2 4 1 4 43.50 1.55 2.0804 3 0 6 4 44.48 1.26 2.0367 2 4 2 4 44.51 1.09 2.0355 4 3 3 4 44.85 2.79 2.0207 6 1 3 4 44.93 1.60 2.0174 1 3 5 4 44.96 1.40 2.0162 0 4 3 4 45.05 1.17 2.0124 5 3 1 4 45.46 6.13 1.9953 1 4 3 4 45.50 6.70 1.9937 3 4 1 4 45.83 5.88 1.9798 2 2 6 4 45.99 3.68 1.9735 6 2 2 4 47.11 6.66 1.9290 1 1 7 4 47.23 4.59 1.9246 5 1 5 4 47.34 9.22 1.9203 7 1 1 4 47.89 8.79 1.8993 4 3 4 4 48.13 1.29 1.8906 4 1 6 4 48.22 1.29 1.8872 6 1 4 4 49.84 1.14 1.8296 6 3 0 4 50.18 1.08 1.8180 2 4 4 4 50.61 1.03 1.8035 5 2 5 4 51.94 1.16 1.7606 1 5 1 4 52.84 3.80 1.7325 1 4 5 4 52.95 2.76 1.7294 5 4 1 4 53.27 1.27 1.7197 2 5 1 4 55.20 1.24 1.6640 2 1 8 4 55.40 5.13 1.6584 1 5 3 4 55.44 4.04 1.6575 3 5 1 4 55.45 1.13 1.6571 8 1 2 4 55.92 5.41 1.6442 5 3 5 4 55.99 2.38 1.6423 6 0 6 4 56.30 1.35 1.6340 3 4 5 4 56.37 2.06 1.6322 5 4 3 4 56.58 1.44 1.6267 0 2 8 4 56.72 7.07 1.6229 4 3 6 4 56.79 4.58 1.6212 5 0 7 4 56.81 7.66 1.6207 6 3 4 4 56.84 1.48 1.6198 8 2 0 4 56.88 2.46 1.6187 7 0 5 4 57.01 6.17 1.6153 6 1 6 4 57.25 1.56 1.6092 6 4 0 4 57.91 1.94 1.5925 0 5 4 4 57.97 1.84 1.5909 4 5 0 4 58.89 1.17 1.5681 6 4 2 4 59.17 3.53 1.5616 3 3 7 4 59.33 1.92 1.5577 7 3 3 4 60.39 2.38 1.5327 8 1 4 4 60.86 1.69 1.5221 7 2 5 4 60.95 1.47 1.5202 1 1 9 4 62.75 1.71 1.4806 1 4 7 4 62.94 1.31 1.4767 7 4 1 4 63.05 1.23 1.4744 1 6 1 4 63.17 1.78 1.4718 3 0 9 4 63.45 2.27 1.4661 9 0 3 4 63.67 1.24 1.4615 6 4 4 4 65.09 1.53 1.4330 3 5 5 4 65.15 1.49 1.4318 5 5 3 4 65.39 1.06 1.4272 2 6 2 4 65.88 4.92 1.4177 3 4 7 4 66.03 4.03 1.4148 7 4 3 4 66.14 2.47 1.4128 1 6 3 4 66.17 2.35 1.4122 3 6 1 4 67.78 1.58 1.3825 4 3 8 4 68.04 2.35 1.3779 6 1 8 4 68.47 1.03 1.3703 4 6 0 4 69.42 1.24 1.3538 2 1 10 4 70.08 4.29 1.3428 7 2 7 4 71.88 2.09 1.3135 4 5 6 4 71.95 2.70 1.3124 6 5 4 4 73.13 1.07 1.2940 9 2 5 4 73.29 1.06 1.2916 10 0 4 4 74.04 1.19 1.2804 3 5 7 4 74.18 1.30 1.2783 10 1 4 4 74.76 1.53 1.2699 1 4 9 4 75.04 2.30 1.2658 9 4 1 4 77.20 1.21 1.2357 2 6 6 4 77.31 1.20 1.2342 6 6 2 4 77.34 1.62 1.2339 5 3 9 4 77.49 1.95 1.2317 8 0 8 4 77.53 1.57 1.2312 9 3 5 4 78.88 1.89 1.2135 3 1 11 4 79.28 1.48 1.2085 11 1 3 4 80.66 2.86 1.1911 3 7 3 4 80.86 1.64 1.1888 4 3 10 4 81.15 1.51 1.1852 10 3 4 4 87.15 1.04 1.1184 0 8 0 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.