Nioboaeschynite-(Ce) Morrison S M, Downs R T, Domanik K J, Yang H, Doell D Acta Crystallographica E68 (2012) i64-i65 Nioboaeschynite-(Ce), Ce(NbTi)O6 Locality: Upper Fir carbonatite, Kamloops mining division, British Columbia, Canada _database_code_amcsd 0019173 CELL PARAMETERS: 11.0563 7.5600 5.3637 90.000 90.000 90.000 SPACE GROUP: Pnma X-RAY WAVELENGTH: 1.541838 Cell Volume: 448.328 Density (g/cm3): 5.439 MAX. ABS. INTENSITY / VOLUME**2: 69.93002006 RIR: 4.186 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 16.03 12.91 5.5282 2 0 0 2 19.90 12.23 4.4624 2 1 0 4 20.30 3.76 4.3745 0 1 1 4 21.85 8.11 4.0677 1 1 1 8 23.10 2.32 3.8495 2 0 1 4 23.54 3.75 3.7800 0 2 0 2 25.97 2.49 3.4304 2 1 1 8 28.61 24.14 3.1203 2 2 0 4 29.40 64.79 3.0375 3 0 1 4 30.03 100.00 2.9758 1 2 1 8 31.75 16.31 2.8185 3 1 1 8 32.39 3.17 2.7641 4 0 0 2 33.22 3.76 2.6971 2 2 1 8 33.41 24.24 2.6818 0 0 2 2 34.41 1.77 2.6063 1 0 2 4 34.55 7.55 2.5960 4 1 0 4 36.47 1.79 2.4640 1 1 2 8 36.57 4.79 2.4570 4 0 1 4 39.19 6.61 2.2987 2 1 2 8 39.29 3.43 2.2930 2 3 0 4 39.51 4.56 2.2808 0 3 1 4 40.43 8.20 2.2312 4 2 0 4 41.65 5.64 2.1685 3 0 2 4 43.41 4.73 2.0844 3 1 2 8 44.31 2.92 2.0443 5 0 1 4 44.55 17.38 2.0339 2 2 2 8 45.99 12.19 1.9735 5 1 1 8 46.84 6.28 1.9394 3 3 1 8 47.22 4.06 1.9248 4 0 2 4 48.15 18.17 1.8900 0 4 0 2 48.83 6.36 1.8653 4 1 2 8 48.91 5.39 1.8622 4 3 0 4 49.46 1.75 1.8427 6 0 0 2 50.37 1.24 1.8116 1 3 2 8 51.01 4.94 1.7903 6 1 0 4 51.07 1.75 1.7884 2 4 0 4 52.51 3.65 1.7428 2 3 2 8 52.51 1.22 1.7427 6 0 1 4 52.60 2.32 1.7399 0 1 3 4 53.42 15.98 1.7152 4 2 2 8 55.36 2.71 1.6596 2 1 3 8 55.48 2.35 1.6564 6 2 0 4 57.27 6.37 1.6086 3 0 3 4 57.42 18.18 1.6047 3 4 1 8 57.64 9.17 1.5992 1 2 3 8 58.10 6.78 1.5876 5 3 1 8 58.68 1.23 1.5734 3 1 3 8 59.23 1.52 1.5601 4 4 0 4 59.44 5.89 1.5550 5 2 2 8 59.60 9.19 1.5513 2 2 3 8 59.87 8.74 1.5449 0 4 2 4 60.51 1.60 1.5300 1 4 2 8 60.53 1.71 1.5296 4 3 2 8 61.17 7.57 1.5151 7 0 1 4 61.80 1.71 1.5012 4 0 3 4 62.36 2.90 1.4890 6 1 2 8 62.43 1.41 1.4875 6 3 0 4 62.52 2.83 1.4856 7 1 1 8 64.59 1.15 1.4428 1 5 1 8 65.51 1.52 1.4248 3 4 2 8 66.33 1.12 1.4093 6 2 2 8 66.48 2.38 1.4064 7 2 1 8 68.64 1.88 1.3674 5 1 3 8 69.44 1.60 1.3536 3 5 1 8 69.73 1.43 1.3486 4 4 2 8 70.19 1.02 1.3409 0 0 4 2 70.78 1.20 1.3312 1 0 4 4 72.04 1.46 1.3110 1 1 4 8 72.84 1.61 1.2985 7 3 1 8 72.87 1.78 1.2980 8 2 0 4 73.85 1.06 1.2832 6 0 3 4 75.44 1.12 1.2601 3 0 4 4 76.86 1.08 1.2403 3 5 2 8 78.00 3.64 1.2250 3 4 3 8 78.45 5.05 1.2191 1 6 1 8 78.59 2.18 1.2173 5 3 3 8 78.72 1.43 1.2156 5 5 1 8 78.95 1.10 1.2126 8 1 2 8 79.02 1.55 1.2118 8 3 0 4 80.84 1.77 1.1890 4 5 2 8 81.40 4.71 1.1822 7 4 1 8 81.83 1.55 1.1770 1 3 4 8 81.96 1.25 1.1755 4 4 3 8 82.53 1.35 1.1689 6 5 0 4 82.57 2.22 1.1684 8 2 2 8 84.25 1.22 1.1493 4 2 4 8 84.51 1.46 1.1465 4 6 0 4 84.96 1.95 1.1416 9 2 1 8 87.30 1.45 1.1169 2 6 2 8 88.42 1.34 1.1056 10 0 0 2 89.27 4.68 1.0972 5 2 4 8 89.65 1.15 1.0936 0 4 4 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.