Carbocernaite Shi N, Ma Z, Peng Z Kexue Tongbao 27 (1982) 76-80 The crystal structure of carbocernaite Locality: deposits of the Bayan Obo, Baotou, China _database_code_amcsd 0014176 CELL PARAMETERS: 5.2600 6.4000 7.3400 90.000 90.000 90.000 SPACE GROUP: Pmc2_1 X-RAY WAVELENGTH: 1.541838 Cell Volume: 247.094 Density (g/cm3): 3.566 MAX. ABS. INTENSITY / VOLUME**2: 25.47836658 RIR: 2.326 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 13.84 21.18 6.4000 0 1 0 2 16.86 33.73 5.2600 1 0 0 2 18.39 43.42 4.8238 0 1 1 2 21.87 38.09 4.0637 1 1 0 4 24.25 14.62 3.6700 0 0 2 1 25.05 32.39 3.5552 1 1 1 4 27.88 11.82 3.2000 0 2 0 2 28.03 14.69 3.1837 0 1 2 2 29.68 100.00 3.0098 1 0 2 2 30.47 41.64 2.9334 0 2 1 2 32.76 2.74 2.7338 1 2 0 4 32.88 10.52 2.7236 1 1 2 4 34.09 22.25 2.6300 2 0 0 2 35.03 43.75 2.5619 1 2 1 4 36.95 7.33 2.4326 2 1 0 4 39.01 19.52 2.3091 2 1 1 4 39.43 17.13 2.2854 0 1 3 2 41.17 10.92 2.1924 1 2 2 4 42.28 6.53 2.1378 2 0 2 2 42.37 15.11 2.1333 0 3 0 2 43.16 16.01 2.0961 1 1 3 4 44.21 8.77 2.0486 0 3 1 2 44.69 39.33 2.0276 2 1 2 4 46.37 32.58 1.9582 2 2 1 4 46.74 12.34 1.9436 0 2 3 2 47.64 12.51 1.9089 1 3 1 4 49.41 1.67 1.8444 0 3 2 2 49.68 7.57 1.8350 0 0 4 1 50.03 17.55 1.8232 1 2 3 4 51.40 3.63 1.7776 2 2 2 4 51.83 2.74 1.7639 0 1 4 2 52.17 1.45 1.7533 3 0 0 2 52.58 11.02 1.7405 1 3 2 4 52.84 5.77 1.7326 1 0 4 2 53.09 5.68 1.7251 2 1 3 4 54.24 7.45 1.6910 3 1 0 4 54.90 10.40 1.6724 1 1 4 4 55.46 2.01 1.6568 2 3 0 4 55.79 2.59 1.6479 3 1 1 4 56.98 6.06 1.6161 2 3 1 4 57.30 4.63 1.6079 0 3 3 2 57.61 1.10 1.6000 0 4 0 2 57.93 2.78 1.5918 0 2 4 2 58.33 5.25 1.5821 3 0 2 2 59.10 6.25 1.5631 2 2 3 4 60.18 3.14 1.5377 1 3 3 4 60.26 2.34 1.5358 3 1 2 4 60.48 4.50 1.5307 1 4 0 4 61.40 1.14 1.5101 2 3 2 4 61.63 7.12 1.5050 3 2 1 4 61.63 1.87 1.5049 2 0 4 2 63.42 3.13 1.4667 0 4 2 2 63.50 2.80 1.4649 2 1 4 4 66.14 3.35 1.4128 1 4 2 4 67.31 2.43 1.3912 0 3 4 2 67.31 3.68 1.3911 3 1 3 4 67.89 3.48 1.3807 1 1 5 4 68.38 2.67 1.3719 2 3 3 4 68.66 1.26 1.3669 2 4 0 4 69.95 1.45 1.3449 1 3 4 4 70.59 1.07 1.3343 0 2 5 2 70.72 2.59 1.3321 3 3 1 4 71.78 3.72 1.3150 4 0 0 2 72.62 5.59 1.3019 3 2 3 4 73.18 4.18 1.2933 1 2 5 4 74.00 10.22 1.2810 2 4 2 4 74.07 1.66 1.2800 0 5 0 2 74.70 1.27 1.2708 3 3 2 4 74.84 1.45 1.2687 4 1 1 4 74.91 1.60 1.2677 3 0 4 2 75.67 1.64 1.2569 2 1 5 4 76.62 4.49 1.2435 3 1 4 4 78.73 1.87 1.2154 4 1 2 4 79.47 1.09 1.2060 0 4 4 2 79.95 3.45 1.1999 4 2 1 4 80.63 1.52 1.1915 1 0 6 2 80.76 3.13 1.1899 2 2 5 4 81.16 1.38 1.1851 3 3 3 4 81.43 2.81 1.1819 3 4 0 4 81.70 3.31 1.1786 1 3 5 4 81.76 3.43 1.1779 1 5 2 4 81.97 3.80 1.1755 1 4 4 4 82.31 2.06 1.1714 1 1 6 4 85.12 1.69 1.1398 4 1 3 4 85.38 1.60 1.1370 2 5 1 4 86.51 1.50 1.1250 3 4 2 4 87.05 1.34 1.1194 4 3 0 4 88.06 1.29 1.1092 2 0 6 2 88.12 1.11 1.1086 3 1 5 4 88.32 1.38 1.1066 4 3 1 4 89.12 1.62 1.0987 2 3 5 4 89.38 1.58 1.0962 2 4 4 4 89.72 2.18 1.0929 2 1 6 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.