Okanoganite-(Y) Boiocchi M, Callegari A, Ottolini L, Maras A American Mineralogist 89 (2004) 1540-1545 The chemistry and crystal structure of okanoganite-(Y) and comparison with vicanite-(Ce) Sample: Golden Horn batholith near Washington Pass, Okanogan County _database_code_amcsd 0003650 CELL PARAMETERS: 10.7108 10.7108 27.0398 90.000 90.000 120.000 SPACE GROUP: R3m X-RAY WAVELENGTH: 1.541838 Cell Volume: 2686.445 Density (g/cm3): 4.806 MAX. ABS. INTENSITY / VOLUME**2: 31.37310028 RIR: 2.126 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.81 3.97 9.0133 0 0 3 1 10.08 1.10 8.7739 1 0 1 3 11.57 23.33 7.6487 0 1 2 3 16.22 6.54 5.4631 1 0 4 3 16.55 11.83 5.3554 1 1 0 6 19.00 10.75 4.6719 0 1 5 3 19.28 1.05 4.6040 1 1 3 6 19.42 8.69 4.5712 0 2 1 3 20.24 49.33 4.3870 2 0 2 3 23.26 3.05 3.8244 0 2 4 3 24.97 16.58 3.5660 1 0 7 3 25.30 8.85 3.5206 2 0 5 3 25.62 4.47 3.4768 2 1 1 6 25.84 4.76 3.4482 1 1 6 6 26.26 13.87 3.3937 1 2 2 6 28.10 2.89 3.1757 0 1 8 3 28.68 44.69 3.1123 2 1 4 6 28.88 23.69 3.0919 3 0 0 3 29.74 16.15 3.0044 0 0 9 1 30.11 100.00 2.9682 0 2 7 3 30.38 63.07 2.9418 1 2 5 6 30.57 29.34 2.9246 0 3 3 3 30.57 29.17 2.9246 3 0 3 3 32.79 14.88 2.7316 2 0 8 3 33.46 41.99 2.6777 2 2 0 6 34.55 14.64 2.5961 2 1 7 6 34.55 3.87 2.5959 1 0 10 3 34.96 4.98 2.5668 2 2 3 6 35.04 1.90 2.5611 1 3 1 6 35.20 2.79 2.5496 0 3 6 3 35.20 1.61 2.5496 3 0 6 3 35.52 7.57 2.5273 3 1 2 6 37.40 2.62 2.4044 1 3 4 6 37.86 4.18 2.3761 0 1 11 3 38.54 3.34 2.3360 0 2 10 3 38.76 3.93 2.3232 3 1 5 6 38.98 1.40 2.3105 4 0 1 3 39.42 5.67 2.2856 0 4 2 3 41.15 2.59 2.1935 4 0 4 3 41.58 1.33 2.1720 2 0 11 3 41.93 2.24 2.1547 0 3 9 3 41.93 17.18 2.1547 3 0 9 3 42.20 12.28 2.1412 1 3 7 6 42.21 10.54 2.1411 2 1 10 6 42.41 8.05 2.1313 0 4 5 3 43.03 12.22 2.1021 2 3 2 6 44.64 16.45 2.0298 3 2 4 6 44.65 4.46 2.0296 1 0 13 3 45.04 1.57 2.0127 1 2 11 6 45.37 21.74 1.9990 2 2 9 6 45.63 6.16 1.9882 4 0 7 3 45.82 23.83 1.9802 2 3 5 6 45.95 10.22 1.9750 1 4 3 6 45.95 8.32 1.9750 4 1 3 6 47.55 1.61 1.9122 0 4 8 3 47.93 5.55 1.8979 0 2 13 3 48.12 2.47 1.8909 0 1 14 3 48.86 12.49 1.8639 3 2 7 6 49.23 3.74 1.8508 0 5 1 3 49.60 3.51 1.8379 5 0 2 3 50.09 12.71 1.8210 0 3 12 3 50.09 27.82 1.8210 3 0 12 3 50.64 3.03 1.8027 0 0 15 1 50.69 7.86 1.8008 2 3 8 6 51.05 16.20 1.7890 0 5 4 3 51.06 1.65 1.7889 2 1 13 6 51.17 20.16 1.7851 3 3 0 6 51.24 12.95 1.7830 2 0 14 3 51.41 1.88 1.7773 3 1 11 6 51.95 1.39 1.7603 4 0 10 3 52.12 17.93 1.7548 5 0 5 3 52.24 1.02 1.7511 3 3 3 6 53.12 1.09 1.7241 2 2 12 6 53.65 1.42 1.7085 1 1 15 6 54.04 2.55 1.6968 2 4 4 6 54.22 3.24 1.6917 1 2 14 6 54.39 2.05 1.6868 0 4 11 3 54.90 3.03 1.6723 0 5 7 3 54.90 9.38 1.6723 3 2 10 6 55.07 6.18 1.6675 4 2 5 6 55.25 1.66 1.6626 1 0 16 3 55.58 5.35 1.6535 1 5 2 6 57.26 2.55 1.6089 2 3 11 6 57.76 1.26 1.5963 2 4 7 6 57.92 2.33 1.5922 1 5 5 6 58.09 6.74 1.5879 0 2 16 3 58.91 1.11 1.5677 0 1 17 3 59.34 3.74 1.5573 0 3 15 3 59.34 1.02 1.5573 3 0 15 3 60.31 10.92 1.5347 3 3 9 6 60.52 5.60 1.5298 5 1 7 6 60.52 4.12 1.5297 0 5 10 3 60.79 2.25 1.5237 0 6 3 3 60.79 1.47 1.5237 6 0 3 3 60.84 1.63 1.5225 4 3 1 6 60.85 1.12 1.5224 2 1 16 6 61.16 1.51 1.5153 3 4 2 6 61.59 4.26 1.5058 1 4 12 6 61.59 1.70 1.5058 4 1 12 6 61.65 4.74 1.5046 2 0 17 3 62.07 2.53 1.4954 2 2 15 6 62.11 2.65 1.4943 1 5 8 6 62.43 3.02 1.4876 4 3 4 6 62.43 2.99 1.4875 3 2 13 6 62.53 3.91 1.4853 5 2 0 6 62.59 1.32 1.4841 0 4 14 3 63.22 1.61 1.4709 2 4 10 6 63.37 4.18 1.4677 3 4 5 6 63.47 5.26 1.4656 2 5 3 6 63.47 7.10 1.4656 5 2 3 6 65.24 4.19 1.4302 2 3 14 6 66.25 1.36 1.4107 2 5 6 6 66.47 1.96 1.4067 1 0 19 3 68.57 1.23 1.3685 6 1 5 6 69.87 1.03 1.3462 4 1 15 6 70.37 2.72 1.3379 5 0 14 3 70.76 1.43 1.3315 5 2 9 6 70.96 2.18 1.3283 4 3 10 6 71.26 2.11 1.3234 3 2 16 6 71.54 2.14 1.3188 0 7 2 3 71.54 5.20 1.3188 5 3 2 6 71.55 1.81 1.3186 2 1 19 6 71.99 2.12 1.3117 0 4 17 3 73.59 1.04 1.2870 5 3 5 6 74.03 2.94 1.2805 2 6 2 6 74.42 1.46 1.2748 0 6 12 3 74.42 2.60 1.2748 6 0 12 3 74.47 5.27 1.2740 2 3 17 6 75.19 3.00 1.2637 6 2 4 6 75.34 1.64 1.2615 1 5 14 6 75.91 7.14 1.2534 3 5 7 6 75.91 2.08 1.2534 7 0 7 3 76.05 1.58 1.2514 2 6 5 6 76.87 3.87 1.2401 2 5 12 6 76.87 7.55 1.2401 5 2 12 6 77.35 1.81 1.2337 0 7 8 3 77.35 2.88 1.2337 5 3 8 6 77.73 4.17 1.2286 7 1 0 6 78.16 1.09 1.2229 4 4 9 6 80.20 1.86 1.1969 3 4 14 6 80.76 1.22 1.1899 3 5 10 6 80.76 1.16 1.1899 7 0 10 3 80.87 2.85 1.1887 0 3 21 3 80.87 1.12 1.1887 3 0 21 3 80.91 2.38 1.1881 0 2 22 3 81.05 2.89 1.1864 5 1 16 6 81.34 8.03 1.1830 3 2 19 6 82.74 1.40 1.1664 0 7 11 3 84.15 1.52 1.1504 1 5 17 6 84.24 1.07 1.1494 3 3 18 6 84.52 2.29 1.1463 2 5 15 6 84.85 1.41 1.1428 0 8 4 3 85.36 2.33 1.1372 1 7 9 6 85.36 2.55 1.1372 7 1 9 6 85.69 2.04 1.1337 8 0 5 3 86.12 2.89 1.1292 0 5 19 3 86.35 1.20 1.1267 0 0 24 1 88.06 1.19 1.1091 7 2 5 6 89.75 2.63 1.0927 5 3 14 6 89.75 1.20 1.0926 5 0 20 3 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.