Leucite Gatta G D, Rotiroti N, Ballaran T B, Pavese A American Mineralogist 93 (2008) 1588-1596 Leucite at high pressure: Elastic behavior, phase stability, and petrological implications Locality: Sabatini volcanic district, Lazium, Italy Note: P = 0.0001 GPa in air _database_code_amcsd 0004673 CELL PARAMETERS: 13.0840 13.0840 13.7840 90.000 90.000 90.000 SPACE GROUP: I4_1/a X-RAY WAVELENGTH: 1.541838 Cell Volume: 2359.698 Density (g/cm3): 2.444 MAX. ABS. INTENSITY / VOLUME**2: 9.984440561 RIR: 1.330 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.32 7.51 9.4896 1 0 1 8 13.54 2.33 6.5420 2 0 0 4 16.04 15.57 5.5270 1 1 2 8 16.46 15.74 5.3861 2 1 1 8 16.46 33.30 5.3861 1 2 1 8 18.70 7.62 4.7448 2 0 2 8 19.19 1.13 4.6259 2 2 0 4 20.49 1.97 4.3351 1 0 3 8 24.64 7.13 3.6137 1 2 3 8 25.10 3.52 3.5474 3 1 2 8 25.10 2.48 3.5474 1 3 2 8 25.38 8.33 3.5093 3 2 1 8 25.38 2.87 3.5093 2 3 1 8 25.85 72.59 3.4460 0 0 4 2 27.26 100.00 3.2710 4 0 0 4 28.21 2.79 3.1632 3 0 3 8 28.87 2.07 3.0924 4 1 1 8 28.87 3.10 3.0924 1 4 1 8 29.29 3.55 3.0489 2 0 4 8 30.24 3.04 2.9551 4 0 2 8 30.56 2.78 2.9257 2 4 0 4 30.56 26.02 2.9257 4 2 0 4 31.41 23.08 2.8478 3 2 3 8 31.41 11.04 2.8478 2 3 3 8 31.79 21.86 2.8150 3 3 2 8 33.27 1.25 2.6931 2 4 2 8 33.85 8.25 2.6479 3 1 4 8 33.85 2.01 2.6479 1 3 4 8 34.34 1.69 2.6111 1 4 3 8 36.01 1.46 2.4939 2 1 5 8 37.40 1.16 2.4047 5 1 2 8 37.59 1.80 2.3928 5 2 1 8 37.93 21.99 2.3724 4 0 4 8 38.64 2.69 2.3303 3 0 5 8 38.94 4.36 2.3129 4 4 0 4 39.20 2.30 2.2981 3 3 4 8 39.64 1.21 2.2739 5 0 3 8 41.12 1.53 2.1952 3 2 5 8 41.67 4.39 2.1676 2 0 6 8 42.07 2.22 2.1478 5 2 3 8 42.36 8.52 2.1337 3 5 2 8 43.76 2.76 2.0688 2 6 0 4 44.00 1.10 2.0581 1 5 4 8 44.84 1.33 2.0213 5 4 1 8 46.62 1.36 1.9481 1 6 3 8 47.06 1.57 1.9312 3 6 1 8 47.33 2.69 1.9205 4 4 4 8 48.42 2.19 1.8800 4 0 6 8 48.77 1.75 1.8671 4 5 3 8 48.80 1.22 1.8663 1 2 7 8 49.47 3.03 1.8423 3 3 6 8 50.29 1.99 1.8144 4 6 0 4 50.51 1.15 1.8069 2 4 6 8 50.86 1.57 1.7954 3 6 3 8 50.86 1.23 1.7954 6 3 3 8 51.11 1.43 1.7871 5 5 2 8 51.11 1.23 1.7871 7 1 2 8 51.26 1.54 1.7821 7 2 1 8 52.88 1.55 1.7314 7 0 3 8 52.90 2.49 1.7307 3 2 7 8 52.90 2.52 1.7307 2 3 7 8 53.16 1.48 1.7230 0 0 8 2 54.85 2.62 1.6737 7 2 3 8 54.87 2.35 1.6732 1 4 7 8 55.09 1.17 1.6670 7 3 2 8 55.09 8.70 1.6670 3 7 2 8 55.12 1.21 1.6662 2 0 8 8 56.25 1.24 1.6355 8 0 0 4 56.44 2.69 1.6302 7 1 4 8 57.40 1.22 1.6052 3 5 6 8 57.98 1.53 1.5906 3 1 8 8 58.14 2.93 1.5867 8 2 0 4 60.19 1.62 1.5375 7 3 4 8 62.54 1.67 1.4852 7 5 2 8 62.54 1.23 1.4852 5 7 2 8 62.71 1.41 1.4816 1 2 9 8 62.90 1.15 1.4775 8 0 4 8 64.45 1.02 1.4458 9 0 1 8 67.59 1.11 1.3861 9 0 3 8 67.93 1.03 1.3799 8 5 1 8 68.16 3.22 1.3758 3 7 6 8 68.87 2.22 1.3634 1 1 10 8 69.30 1.33 1.3560 7 6 3 8 72.24 1.89 1.3077 3 1 10 8 72.38 1.05 1.3056 8 2 6 8 72.99 1.87 1.2961 1 10 1 8 74.32 1.37 1.2762 4 9 3 8 75.38 1.07 1.2610 7 1 8 8 75.97 1.18 1.2526 1 10 3 8 75.99 1.55 1.2524 1 8 7 8 78.82 1.13 1.2143 5 1 10 8 82.05 1.84 1.1745 3 5 10 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.