Gadolinite-(Y) Diffraction data computed using the structure from the paper listed below, along with the cell parameters refined from the powder pattern of R080129. Camara F, Oberti R, Ottolini L, Ventura G D, Bellatreccia F American Mineralogist 93, (2008) 996-1004 The crystal chemistry of Li in gadolinite Locality: Vico lake, Latium, Italy CELL PARAMETERS: 4.735548 7.505468 9.954179 90.00000 90.11263 90.00000 SPACE GROUP: P2_1/c X-RAY WAVELENGTH: 1.541838 2-THETA INTENSITY D-SPACING H K L 14.72 20.77 5.9928 0 1 1 17.75 6.11 4.9771 0 0 2 18.67 91.59 4.7355 1 0 0 21.35 20.44 4.1479 0 1 2 23.64 2.55 3.7527 0 2 0 23.86 15.14 3.7177 -1 1 1 23.89 4.04 3.7134 1 1 1 25.29 58.57 3.5115 0 2 1 25.87 33.50 3.4341 -1 0 2 25.92 12.91 3.4274 1 0 2 28.51 88.02 3.1228 -1 1 2 28.56 94.88 3.1177 1 1 2 29.35 53.44 3.0347 0 1 3 29.74 2.59 2.9964 0 2 2 30.31 71.53 2.9412 1 2 0 31.63 93.86 2.8216 -1 2 1 31.65 100.00 2.8197 1 2 1 35.01 92.87 2.5572 -1 1 3 35.07 74.49 2.5530 1 1 3 35.35 9.55 2.5335 -1 2 2 35.39 3.77 2.5307 1 2 2 36.05 1.70 2.4858 0 2 3 36.01 6.32 2.4885 0 0 4 36.97 14.79 2.4264 0 3 1 37.92 27.55 2.3678 2 0 0 38.01 29.27 2.3621 0 1 4 39.84 1.25 2.2581 2 1 0 40.26 42.65 2.2353 0 3 2 40.70 12.01 2.2121 1 3 0 40.89 14.15 2.2023 -1 2 3 40.85 8.66 2.2047 -1 0 4 40.91 8.32 2.2012 2 1 1 40.94 14.99 2.1996 1 2 3 40.92 3.87 2.2011 1 0 4 41.73 13.64 2.1598 -1 3 1 42.21 6.73 2.1365 2 0 2 42.66 4.31 2.1153 -1 1 4 42.72 15.64 2.1122 1 1 4 43.91 6.59 2.0578 -2 1 2 43.98 5.89 2.0549 2 1 2 44.73 10.18 2.0221 -1 3 2 44.76 24.64 2.0207 1 3 2 45.31 4.69 1.9976 0 3 3 46.14 33.70 1.9638 -2 2 1 46.17 32.48 1.9625 2 2 1 47.14 3.53 1.9243 0 1 5 48.42 12.52 1.8764 0 4 0 48.64 43.84 1.8684 -2 1 3 48.73 39.09 1.8652 2 1 3 49.33 6.68 1.8439 0 4 1 49.41 1.55 1.8413 -1 3 3 49.45 1.50 1.8398 1 3 3 51.18 3.90 1.7815 1 1 5 51.72 20.09 1.7643 0 3 4 51.99 24.12 1.7557 0 4 2 51.90 25.41 1.7587 0 2 5 52.36 20.32 1.7444 1 4 0 53.21 2.04 1.7184 -1 4 1 53.38 1.43 1.7132 2 2 3 53.37 2.84 1.7137 2 0 4 54.00 4.43 1.6950 -2 3 1 54.03 10.92 1.6942 2 3 1 54.75 23.67 1.6738 -2 1 4 54.86 14.15 1.6707 2 1 4 55.46 21.03 1.6541 -1 3 4 55.28 17.10 1.6590 0 0 6 55.73 3.95 1.6466 -1 4 2 55.51 22.56 1.6526 1 3 4 55.62 7.64 1.6496 -1 2 5 55.76 5.85 1.6459 1 4 2 55.69 12.41 1.6477 1 2 5 56.50 27.21 1.6261 -2 3 2 56.55 20.70 1.6247 2 3 2 58.36 11.61 1.5785 3 0 0 58.85 16.40 1.5667 -1 0 6 59.22 3.71 1.5578 0 3 5 58.93 17.57 1.5648 1 0 6 59.17 3.33 1.5588 2 2 4 59.78 1.85 1.5445 -1 4 3 60.96 9.80 1.5174 0 2 6 61.49 2.64 1.5055 -3 0 2 61.83 5.41 1.4982 0 4 4 62.47 3.98 1.4843 0 5 1 62.65 3.68 1.4805 -1 3 5 62.86 5.58 1.4761 -3 1 2 62.72 3.70 1.4791 1 3 5 63.12 1.29 1.4706 2 4 0 62.93 5.80 1.4745 3 1 2 63.87 1.25 1.4551 -2 4 1 63.90 3.38 1.4545 2 4 1 63.88 2.72 1.4550 3 2 0 64.62 12.08 1.4401 -3 2 1 64.66 13.15 1.4394 3 2 1 65.19 5.63 1.4289 -1 4 4 65.24 3.68 1.4279 1 4 4 65.83 7.86 1.4165 -1 5 1 65.84 9.67 1.4162 1 5 1 65.87 2.52 1.4157 -2 3 4 66.01 6.77 1.4130 -2 2 5 66.13 6.11 1.4108 -2 4 2 66.18 6.44 1.4098 2 4 2 65.97 2.78 1.4138 2 3 4 66.63 12.96 1.4014 -3 1 3 66.14 5.12 1.4107 2 2 5 66.74 14.53 1.3994 3 1 3 68.50 1.46 1.3676 0 5 3 68.95 2.49 1.3600 -2 0 6 69.09 3.08 1.3574 2 0 6 69.89 1.01 1.3438 2 4 3 70.43 1.27 1.3350 3 3 0 70.52 1.52 1.3334 -3 2 3 70.16 1.03 1.3394 1 1 7 70.74 3.24 1.3298 0 2 7 71.71 8.00 1.3142 -1 5 3 71.75 6.11 1.3137 1 5 3 71.82 3.49 1.3125 -1 4 5 71.88 1.43 1.3115 1 4 5 73.28 1.55 1.2900 -3 3 2 74.04 2.14 1.2786 -2 2 6 73.88 8.79 1.2809 -1 2 7 73.97 6.03 1.2796 1 2 7 74.18 3.84 1.2765 2 2 6 74.85 2.90 1.2667 -2 4 4 75.50 1.97 1.2575 2 5 1 75.96 2.83 1.2509 0 6 0 76.67 5.52 1.2411 0 6 1 76.70 1.11 1.2408 -1 5 4 76.81 1.31 1.2392 -3 3 3 76.54 10.88 1.2429 0 4 6 76.74 1.59 1.2402 1 5 4 76.44 2.79 1.2443 0 0 8 77.58 1.70 1.2289 -2 5 2 77.63 1.09 1.2282 2 5 2 78.13 1.37 1.2216 -3 1 5 77.68 4.21 1.2275 0 1 8 78.30 1.30 1.2193 3 1 5 79.19 6.41 1.2079 3 4 0 79.76 3.76 1.2007 -1 6 1 79.61 2.56 1.2026 -1 4 6 79.87 2.31 1.1993 -3 4 1 79.90 1.18 1.1989 3 4 1 79.93 5.63 1.1986 0 5 5 80.08 2.61 1.1967 -1 3 7 81.06 7.79 1.1847 -2 5 3 81.13 8.28 1.1839 4 0 0 81.13 6.82 1.1839 2 5 3 81.68 5.95 1.1772 -3 3 4 81.84 3.05 1.1754 -1 6 2 81.81 6.05 1.1757 -3 2 5 81.86 1.44 1.1751 1 6 2 81.93 2.43 1.1743 -3 4 2 82.00 3.09 1.1734 3 4 2 81.82 4.81 1.1756 3 3 4 81.98 5.51 1.1737 3 2 5 83.01 1.54 1.1617 -4 1 1 83.02 3.53 1.1616 1 5 5 83.13 7.51 1.1603 -2 2 7 83.29 8.42 1.1585 2 2 7 84.53 5.82 1.1447 -3 0 6 85.06 1.05 1.1389 -4 1 2 85.29 1.10 1.1365 -1 6 3 84.74 5.31 1.1425 3 0 6 86.65 3.80 1.1221 -4 2 1 86.70 2.25 1.1216 4 2 1 87.08 1.77 1.1177 0 6 4 87.87 2.01 1.1096 -3 3 5 87.43 1.06 1.1141 0 3 8 88.23 1.07 1.1060 2 6 0 88.48 3.11 1.1036 -4 1 3 88.04 2.30 1.1079 3 3 5 88.72 2.23 1.1011 -2 4 6 88.90 2.06 1.0994 -2 6 1 88.58 1.05 1.1026 -1 4 7 88.93 5.08 1.0992 2 6 1 88.61 3.99 1.1023 4 1 3 88.86 4.96 1.0998 2 4 6 88.79 1.31 1.1006 2 0 8 89.81 3.42 1.0906 -2 1 8 90.16 1.42 1.0873 -3 4 4 89.44 3.11 1.0942 0 1 9 89.44 3.11 1.0942 0 1 9 XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.