Perlialite Artioli G, Kvick A European Journal of Mineralogy 2 (1990) 749-759 Synchrotron X-ray Rietveld study of perlialite, the natural counterpart of synthetic zeolite-L Sample: data collected with conventional diffractometer radiation _database_code_amcsd 0006390 CELL PARAMETERS: 18.5432 18.5432 7.5310 90.000 90.000 120.000 SPACE GROUP: P6/mmm X-RAY WAVELENGTH: 1.541838 Cell Volume: 2242.604 Density (g/cm3): 2.731 MAX. ABS. INTENSITY / VOLUME**2: 20.86162428 RIR: 2.487 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 5.50 100.00 16.0589 1 0 0 6 9.54 14.58 9.2716 1 1 0 6 11.02 6.29 8.0294 2 0 0 6 14.59 3.63 6.0697 2 1 0 12 16.14 7.87 5.4930 2 0 1 12 16.56 11.25 5.3530 3 0 0 6 19.15 13.56 4.6358 2 2 0 6 19.93 3.48 4.4539 3 1 0 12 20.35 15.09 4.3631 3 0 1 12 22.14 3.25 4.0147 4 0 0 6 22.52 44.35 3.9478 2 2 1 12 23.20 9.20 3.8337 3 1 1 24 23.63 3.90 3.7655 0 0 2 2 24.16 1.31 3.6842 3 2 0 12 24.28 3.60 3.6661 1 0 2 12 25.14 1.43 3.5428 4 0 1 12 25.42 4.17 3.5043 4 1 0 12 25.53 26.54 3.4888 1 1 2 12 26.94 6.23 3.3094 3 2 1 24 27.78 21.44 3.2118 5 0 0 6 27.88 5.41 3.1998 2 1 2 24 28.08 2.85 3.1772 4 1 1 24 28.99 37.46 3.0798 3 0 2 12 29.43 4.98 3.0348 4 2 0 12 30.59 7.37 2.9228 2 2 2 12 31.01 1.74 2.8843 5 1 0 12 31.28 16.44 2.8591 3 3 1 12 31.79 7.30 2.8149 4 2 1 24 32.60 5.81 2.7465 4 0 2 12 33.26 2.73 2.6935 5 1 1 24 33.48 28.28 2.6765 6 0 0 6 34.05 12.16 2.6334 3 2 2 24 34.98 6.87 2.5653 4 1 2 24 35.60 6.46 2.5219 6 0 1 12 36.05 10.81 2.4914 4 3 1 24 36.78 2.10 2.4436 5 0 2 12 36.94 5.98 2.4335 5 2 1 24 37.65 5.23 2.3889 3 3 2 12 39.27 2.17 2.2941 5 3 0 12 39.27 4.99 2.2941 7 0 0 6 39.66 4.94 2.2728 3 0 3 12 40.73 8.66 2.2153 4 4 1 12 40.88 9.14 2.2075 2 2 3 12 41.13 1.73 2.1946 7 0 1 12 41.39 5.03 2.1815 6 0 2 12 41.79 1.88 2.1617 4 3 2 24 42.32 2.35 2.1356 6 2 1 24 42.57 1.20 2.1236 5 2 2 24 44.11 1.00 2.0530 6 1 2 24 44.25 1.32 2.0470 7 1 1 24 46.34 2.27 1.9592 5 3 2 24 46.48 4.39 1.9539 6 3 1 24 46.61 2.42 1.9485 3 3 3 12 46.84 2.95 1.9396 8 0 1 12 48.34 5.87 1.8828 0 0 4 2 49.20 1.71 1.8520 7 1 2 24 49.48 1.01 1.8421 6 4 0 12 50.83 3.85 1.7963 5 2 3 24 51.26 1.05 1.7823 6 3 2 24 51.45 1.26 1.7761 3 0 4 12 52.05 2.46 1.7569 7 3 1 24 52.18 1.03 1.7530 6 1 3 24 52.60 1.28 1.7399 7 2 2 24 53.71 5.70 1.7066 8 2 1 24 53.78 1.47 1.7046 4 0 4 12 54.16 4.46 1.6935 7 0 3 12 54.51 2.25 1.6834 6 5 0 12 54.57 1.10 1.6817 8 1 2 24 55.40 1.63 1.6585 4 1 4 24 55.54 2.21 1.6547 6 4 2 24 55.97 1.06 1.6429 9 1 1 24 56.49 1.08 1.6290 7 3 2 24 56.67 1.49 1.6242 5 0 4 12 57.38 1.36 1.6059 10 0 0 6 58.06 1.62 1.5886 8 2 2 24 58.60 3.52 1.5753 6 3 3 24 59.85 3.20 1.5453 6 6 0 6 60.08 4.53 1.5399 6 0 4 12 60.16 1.37 1.5382 7 5 0 12 60.22 1.13 1.5368 6 5 2 24 63.43 1.32 1.4664 7 3 3 24 64.90 1.61 1.4368 8 2 3 24 65.12 1.68 1.4325 2 2 5 12 70.22 1.41 1.3404 10 3 1 24 70.35 1.83 1.3382 12 0 0 6 70.68 1.49 1.3328 7 6 2 24 71.68 1.23 1.3167 6 4 4 24 71.93 1.42 1.3126 6 0 5 12 75.24 1.08 1.2630 4 4 5 12 75.80 1.26 1.2549 6 5 4 24 77.28 1.11 1.2346 9 5 2 24 78.63 1.19 1.2168 10 4 2 24 80.39 1.00 1.1945 6 6 4 12 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.