Lawsonite Comodi P, Zanazzi P F American Mineralogist 81 (1996) 833-841 Effects of temperature and pressure on the structure of lawsonite P = 0.001 kbar, T = 538 C _database_code_amcsd 0001804 CELL PARAMETERS: 8.8600 5.8880 13.2010 90.000 90.000 90.000 SPACE GROUP: Ccmm X-RAY WAVELENGTH: 1.541838 Cell Volume: 688.666 Density (g/cm3): 2.991 MAX. ABS. INTENSITY / VOLUME**2: 5.390717930 RIR: 0.587 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 13.41 34.73 6.6005 0 0 2 2 18.09 78.43 4.9039 1 1 0 4 19.31 27.72 4.5969 1 1 1 8 20.04 1.09 4.4300 2 0 0 2 21.15 40.03 4.1998 2 0 1 4 22.59 2.54 3.9364 1 1 2 8 24.20 61.38 3.6783 2 0 2 4 27.02 1.22 3.3003 0 0 4 2 27.23 27.28 3.2751 1 1 3 8 30.36 25.40 2.9440 0 2 0 2 32.71 100.00 2.7380 1 1 4 8 33.32 46.22 2.6887 0 2 2 4 33.87 79.70 2.6466 2 0 4 4 33.96 64.36 2.6399 3 1 0 4 34.65 3.93 2.5886 3 1 1 8 36.65 36.32 2.4519 2 2 0 4 36.66 31.35 2.4511 3 1 2 8 37.30 14.27 2.4107 2 2 1 8 38.73 9.86 2.3247 1 1 5 8 39.19 14.69 2.2985 2 2 2 8 39.74 28.52 2.2680 2 0 5 4 39.82 1.32 2.2637 3 1 3 8 40.74 3.06 2.2150 4 0 0 2 41.02 3.52 2.2002 0 0 6 2 41.09 2.19 2.1969 0 2 4 4 41.33 1.29 2.1845 4 0 1 4 42.19 61.82 2.1419 2 2 3 8 43.08 1.62 2.0999 4 0 2 4 43.92 2.40 2.0615 3 1 4 8 45.17 1.42 2.0074 1 1 6 8 45.87 17.42 1.9785 4 0 3 4 46.06 1.77 1.9705 2 0 6 4 47.45 1.12 1.9162 1 3 0 4 47.97 5.37 1.8963 1 3 1 8 48.78 1.52 1.8668 3 1 5 8 49.56 1.38 1.8392 4 0 4 4 50.82 1.89 1.7967 2 2 5 8 51.64 1.14 1.7700 4 2 0 4 51.88 17.72 1.7624 0 2 6 4 51.95 3.42 1.7602 1 1 7 8 52.14 1.82 1.7543 4 2 1 8 52.76 13.88 1.7352 2 0 7 4 53.61 12.65 1.7096 4 2 2 8 54.04 4.06 1.6969 4 0 5 4 54.04 1.16 1.6968 5 1 0 4 54.53 3.54 1.6830 5 1 1 8 55.45 8.52 1.6571 1 3 4 8 55.70 16.28 1.6501 0 0 8 2 56.00 12.12 1.6421 4 2 3 8 56.17 14.41 1.6376 2 2 6 8 56.28 15.31 1.6346 3 3 0 4 58.14 4.67 1.5867 3 3 2 8 59.07 2.79 1.5640 1 1 8 8 59.19 15.44 1.5610 4 0 6 4 59.24 58.96 1.5598 4 2 4 8 61.44 2.98 1.5090 5 1 4 8 63.16 24.18 1.4720 0 4 0 2 63.25 3.51 1.4702 4 2 5 8 64.68 3.11 1.4410 6 0 2 4 66.86 10.97 1.3993 3 1 8 8 67.24 1.13 1.3924 2 0 9 4 67.42 1.37 1.3891 2 4 1 8 68.55 11.48 1.3690 2 2 8 8 68.68 3.70 1.3666 2 4 2 8 69.77 1.56 1.3479 6 0 4 4 70.00 2.28 1.3441 1 3 7 8 71.26 2.73 1.3233 4 0 8 4 71.47 10.82 1.3199 6 2 0 4 71.77 1.26 1.3152 5 3 0 4 71.88 4.44 1.3134 6 2 1 8 72.18 2.19 1.3088 5 3 1 8 73.11 1.36 1.2943 6 2 2 8 73.36 1.50 1.2906 4 2 7 8 73.64 11.58 1.2864 2 4 4 8 75.09 1.72 1.2651 2 0 10 4 75.15 6.98 1.2643 6 2 3 8 75.35 1.16 1.2614 5 1 7 8 77.27 2.37 1.2347 2 4 5 8 77.92 1.96 1.2261 6 0 6 4 78.24 2.90 1.2218 5 3 4 8 79.39 1.53 1.2070 4 2 8 8 79.58 10.76 1.2045 0 2 10 4 80.66 2.86 1.1912 7 1 3 8 81.50 2.94 1.1810 4 4 3 8 81.53 3.54 1.1807 3 1 10 8 82.66 1.30 1.1673 1 5 0 4 82.80 1.20 1.1657 1 1 11 8 83.19 6.26 1.1613 3 3 8 8 83.42 2.70 1.1587 7 1 4 8 86.75 2.77 1.1225 2 4 7 8 86.95 2.81 1.1205 7 1 5 8 87.79 1.18 1.1119 4 4 5 8 88.23 2.23 1.1075 8 0 0 2 88.94 3.92 1.1005 1 5 4 8 89.15 4.91 1.0985 0 4 8 4 89.62 1.29 1.0939 3 5 0 4 89.79 2.00 1.0922 8 0 2 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.