Lillianite Takagi J, Takeuchi Y Acta Crystallographica B28 (1972) 649-651 The crystal structure of lillianite Locality: Tsubakihara mine, Gifu Prefecture, Japan _database_code_amcsd 0018399 CELL PARAMETERS: 13.5350 20.4510 4.1040 90.000 90.000 90.000 SPACE GROUP: Bbmm X-RAY WAVELENGTH: 1.541838 Cell Volume: 1136.005 Density (g/cm3): 7.202 MAX. ABS. INTENSITY / VOLUME**2: 162.3411419 RIR: 7.340 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.65 4.98 10.2255 0 2 0 2 15.70 1.61 5.6435 2 2 0 4 17.34 1.50 5.1128 0 4 0 2 21.79 17.01 4.0794 2 4 0 4 22.64 3.93 3.9274 1 0 1 4 23.06 3.00 3.8570 1 1 1 8 24.28 28.85 3.6663 1 2 1 8 25.45 100.00 3.5005 2 5 0 4 26.14 2.14 3.4085 0 6 0 2 26.19 56.54 3.4031 1 3 1 8 26.34 22.59 3.3837 4 0 0 2 26.70 17.03 3.3384 4 1 0 4 27.77 4.20 3.2124 4 2 0 4 28.66 13.05 3.1146 1 4 1 8 29.34 13.46 3.0442 2 6 0 4 29.47 1.05 3.0309 4 3 0 4 29.75 43.94 3.0030 3 1 1 8 30.72 58.34 2.9103 3 2 1 8 32.28 32.37 2.7733 3 3 1 8 33.41 10.49 2.6823 2 7 0 4 35.10 2.43 2.5564 0 8 0 2 36.87 2.14 2.4378 3 5 1 8 38.40 13.91 2.3441 1 7 1 8 40.15 1.09 2.2460 5 1 1 8 40.81 1.64 2.2114 4 7 0 4 42.13 11.02 2.1449 5 3 1 8 42.18 32.59 2.1425 1 8 1 8 42.20 3.58 2.1416 6 3 0 4 43.80 26.61 2.0668 5 4 1 8 43.87 16.27 2.0639 6 4 0 4 44.13 22.16 2.0520 0 0 2 2 44.29 9.91 2.0451 0 10 0 2 45.88 11.06 1.9779 5 5 1 8 45.94 6.17 1.9753 6 5 0 4 46.15 2.77 1.9668 1 9 1 8 46.44 12.66 1.9554 3 8 1 8 48.24 5.63 1.8864 4 9 0 4 48.32 4.17 1.8834 5 6 1 8 48.39 2.16 1.8812 6 6 0 4 49.74 3.26 1.8332 2 4 2 8 50.15 8.44 1.8192 3 9 1 8 50.94 2.20 1.7928 2 11 0 4 51.10 5.56 1.7874 5 7 1 8 51.16 2.08 1.7855 6 7 0 4 51.63 25.64 1.7703 2 5 2 8 52.13 6.58 1.7546 4 0 2 4 52.27 7.70 1.7503 4 10 0 4 52.30 6.35 1.7492 7 0 1 4 52.33 4.63 1.7482 4 1 2 8 52.51 3.74 1.7428 7 1 1 8 52.95 1.50 1.7293 4 2 2 8 53.12 2.73 1.7241 7 2 1 8 53.88 3.54 1.7015 2 6 2 8 54.17 2.86 1.6931 5 8 1 8 54.23 1.25 1.6914 6 8 0 4 54.42 4.15 1.6861 8 1 0 4 55.01 4.33 1.6692 8 2 0 4 56.00 1.85 1.6421 8 3 0 4 56.46 4.36 1.6298 2 7 2 8 60.86 3.47 1.5221 4 12 0 4 62.50 4.09 1.4861 3 12 1 8 62.71 1.91 1.4817 6 3 2 8 63.73 7.36 1.4604 1 13 1 8 63.98 8.55 1.4552 6 4 2 8 64.31 5.56 1.4485 0 10 2 4 65.60 3.81 1.4231 6 5 2 8 66.24 1.86 1.4109 8 8 0 4 67.00 3.45 1.3968 3 13 1 8 67.44 3.35 1.3888 4 9 2 8 67.55 1.28 1.3867 6 6 2 8 67.59 3.40 1.3861 7 9 1 8 68.54 1.19 1.3691 1 14 1 8 69.00 1.17 1.3611 9 4 1 8 69.02 1.28 1.3607 5 12 1 8 69.23 1.88 1.3570 8 9 0 4 69.64 1.39 1.3501 2 11 2 8 69.70 1.18 1.3492 1 2 3 8 69.83 1.44 1.3470 6 7 2 8 70.45 1.86 1.3365 2 15 0 4 70.56 7.63 1.3348 9 5 1 8 70.56 2.61 1.3347 1 3 3 8 70.75 5.32 1.3316 4 10 2 8 70.89 4.23 1.3293 7 10 1 8 71.00 1.58 1.3276 10 3 0 4 72.33 2.42 1.3065 3 1 3 8 72.41 1.03 1.3052 6 8 2 8 72.45 1.20 1.3045 9 6 1 8 72.57 2.91 1.3027 8 1 2 8 72.84 3.23 1.2985 3 2 3 8 73.08 3.07 1.2949 8 2 2 8 73.69 2.23 1.2857 3 3 3 8 73.93 1.47 1.2821 8 3 2 8 74.66 2.62 1.2714 9 7 1 8 77.34 1.19 1.2338 1 7 3 8 77.87 1.68 1.2268 5 14 1 8 78.19 2.97 1.2225 4 12 2 8 78.33 3.62 1.2207 7 12 1 8 79.80 1.18 1.2018 5 3 3 8 79.84 3.61 1.2014 1 8 3 8 80.25 1.38 1.1962 10 8 0 4 80.96 3.00 1.1876 5 4 3 8 81.22 1.62 1.1844 2 17 0 4 81.70 4.91 1.1786 11 0 1 4 82.44 1.72 1.1699 5 5 3 8 82.84 1.64 1.1652 3 8 3 8 83.07 1.68 1.1626 8 8 2 8 85.63 1.36 1.1344 3 9 3 8 85.86 1.80 1.1319 8 9 2 8 87.00 1.85 1.1199 2 15 2 8 87.31 1.20 1.1168 7 0 3 4 87.52 1.55 1.1146 10 3 2 8 89.88 2.19 1.0914 1 18 1 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.