Laurionite Goldsztaub S Comptes Rendus Hebdomadaires des Seances de l'Academie des Sciences 204 (1937) 702-703 Structure cristalline de la laurionite _cod_database_code 1011017 _database_code_amcsd 0017924 CELL PARAMETERS: 7.1000 9.7000 4.0500 90.000 90.000 90.000 SPACE GROUP: Pnam X-RAY WAVELENGTH: 1.541838 Cell Volume: 278.923 Density (g/cm3): 6.159 MAX. ABS. INTENSITY / VOLUME**2: 148.1892921 RIR: 7.835 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 15.47 6.54 5.7292 1 1 0 4 18.29 17.73 4.8500 0 2 0 2 22.20 100.00 4.0048 1 2 0 4 23.81 47.69 3.7373 0 1 1 4 25.08 36.47 3.5500 2 0 0 2 26.74 13.52 3.3338 2 1 0 4 26.96 84.06 3.3071 1 1 1 8 30.38 1.99 2.9426 1 3 0 4 31.22 6.13 2.8646 2 2 0 4 33.57 22.98 2.6696 2 0 1 4 34.86 32.94 2.5739 2 1 1 8 35.53 55.25 2.5268 0 3 1 4 37.07 17.66 2.4250 0 4 0 2 37.63 15.18 2.3904 2 3 0 4 37.79 7.09 2.3806 1 3 1 8 38.49 4.15 2.3387 2 2 1 8 39.18 5.19 2.2992 3 1 0 4 39.26 6.96 2.2948 1 4 0 4 42.50 16.23 2.1269 3 2 0 4 43.99 35.10 2.0586 2 3 1 8 44.75 17.36 2.0250 0 0 2 2 45.29 9.36 2.0024 2 4 0 4 45.36 20.08 1.9995 3 1 1 8 48.33 13.12 1.8831 3 2 1 8 48.73 2.34 1.8687 0 2 2 4 50.50 20.40 1.8071 1 2 2 8 50.87 6.25 1.7950 2 4 1 8 51.48 1.41 1.7750 4 0 0 2 51.99 9.16 1.7590 2 0 2 4 52.40 3.44 1.7460 4 1 0 4 52.90 3.40 1.7307 2 1 2 8 53.01 1.23 1.7273 3 3 1 8 53.98 18.48 1.6988 1 5 1 8 54.15 3.27 1.6937 3 4 0 4 55.58 2.00 1.6536 2 2 2 8 56.61 7.70 1.6257 4 0 1 4 56.96 4.15 1.6167 0 6 0 2 58.56 3.12 1.5763 1 6 0 4 59.12 1.06 1.5626 3 4 1 8 59.40 5.90 1.5560 4 3 0 4 59.47 7.45 1.5543 0 4 2 4 59.86 6.49 1.5451 2 3 2 8 60.02 1.24 1.5414 4 2 1 8 60.97 2.65 1.5196 3 1 2 8 61.03 3.40 1.5184 1 4 2 8 61.84 2.67 1.5003 3 5 0 4 63.20 4.24 1.4713 2 6 0 4 63.42 8.41 1.4666 3 2 2 8 64.11 1.51 1.4525 4 3 1 8 65.13 1.07 1.4323 4 4 0 4 65.56 5.47 1.4238 2 4 2 8 66.45 7.73 1.4069 3 5 1 8 66.55 4.59 1.4050 5 1 0 4 67.76 3.29 1.3829 2 6 1 8 69.63 4.76 1.3503 4 4 1 8 70.42 1.80 1.3371 0 1 3 4 71.01 1.23 1.3274 5 1 1 8 71.32 2.34 1.3223 4 1 2 8 71.84 4.13 1.3140 1 1 3 8 72.03 4.79 1.3111 0 7 1 4 72.79 2.31 1.2992 3 4 2 8 73.29 7.16 1.2916 5 2 1 8 73.34 1.11 1.2909 2 7 0 4 74.90 1.52 1.2678 3 6 1 8 75.21 3.19 1.2634 0 6 2 4 75.32 1.56 1.2618 2 0 3 4 76.06 2.37 1.2513 2 1 3 8 76.46 4.35 1.2458 0 3 3 4 76.60 2.44 1.2439 1 6 2 8 77.34 4.69 1.2338 4 3 2 8 77.63 4.46 1.2299 2 7 1 8 79.51 2.22 1.2055 3 5 2 8 80.33 2.11 1.1952 1 8 0 4 80.73 3.58 1.1903 2 6 2 8 81.96 4.21 1.1755 2 3 3 8 82.19 2.67 1.1729 5 4 1 8 82.94 2.57 1.1642 3 1 3 8 83.80 4.21 1.1544 5 1 2 8 84.52 2.59 1.1463 4 6 1 8 84.57 2.72 1.1458 5 5 0 4 85.12 1.83 1.1398 3 2 3 8 85.49 1.77 1.1358 6 0 1 4 87.06 1.01 1.1194 2 4 3 8 87.85 1.45 1.1113 6 3 0 4 89.52 3.38 1.0949 1 5 3 8 89.79 1.45 1.0923 4 7 0 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.