Wodginite Diffraction data computed using the structure from the paper listed below, along with the cell parameters refined from single crystal data of R130047 Ferguson R B, Hawthorne F C, Grice J D The Canadian Mineralogist 14 (1976) 550-560 The crystal structures of tantalite, ixiolite and wodginite from Bernic lake, Manitoba II. Wodginite Locality: Bernic lake, Manitoba, Canada _database_code_amcsd 0005133 CELL PARAMETERS: 9.5110 11.4750 5.1190 90.000 91.040 90.000 SPACE GROUP: C2/c ATOM X Y Z OCCUPANCY ISO(B) Sn 0.00000 0.16890 0.25000 0.567 0.514 Ta 0.00000 0.16890 0.25000 0.250 0.514 Ti 0.00000 0.16890 0.25000 0.113 0.514 Fe 0.00000 0.16890 0.25000 0.070 0.514 Mn 0.00000 0.65750 0.25000 1.000 0.623 Ta 0.24980 0.41310 0.24720 0.891 0.612 Ta 0.24980 0.41310 0.24720 0.109 0.612 O 0.13340 0.05770 0.08330 1.000 0.895 O 0.14530 0.45050 0.55970 1.000 1.120 O 0.12150 0.30600 0.09840 1.000 1.009 O 0.11610 0.18340 0.57580 1.000 1.099 X-RAY WAVELENGTH: 1.541838 BOUNDS ON TWO THETA: 5.0 90.0 LIMITS IMPOSED ON THE INDICES ARE: +/- 8 +/- 10 +/- 4 MAX. ABS. INTENSITY / VOLUME**2: 132.3422704 The INTENSITY cut off value is 1.00 2-THETA INTENSITY D-SPACING H K L 12.09 4.11 7.3220 1 1 0 15.44 5.06 5.7375 0 2 0 18.66 17.13 4.7547 2 0 0 21.04 4.61 4.2227 -1 1 1 21.32 5.27 4.1676 1 1 1 23.29 16.89 3.8194 0 2 1 24.31 53.78 3.6610 2 2 0 25.09 4.01 3.5487 1 3 0 29.81 100.00 2.9975 -2 2 1 30.21 93.97 2.9581 2 2 1 31.18 15.77 2.8688 0 4 0 33.91 1.21 2.6439 -3 1 1 35.07 31.01 2.5591 0 0 2 35.89 39.10 2.5025 0 4 1 36.58 2.38 2.4563 2 4 0 36.83 1.15 2.4407 3 3 0 37.84 19.45 2.3774 4 0 0 39.69 6.98 2.2707 -2 0 2 40.90 10.29 2.2064 2 4 1 42.83 9.60 2.1114 -2 2 2 43.43 9.61 2.0838 2 2 2 44.62 2.08 2.0307 -4 2 1 45.20 3.42 2.0062 4 2 1 47.54 1.29 1.9125 0 6 0 47.62 11.34 1.9097 0 4 2 49.81 10.19 1.8305 4 4 0 51.50 27.08 1.7743 2 6 0 51.83 1.24 1.7638 2 4 2 52.03 16.53 1.7577 -4 0 2 52.88 20.40 1.7313 -4 4 1 53.05 14.76 1.7262 4 0 2 53.39 21.40 1.7160 4 4 1 56.25 1.45 1.6353 0 2 3 59.45 14.23 1.5547 -2 2 3 60.16 12.75 1.5382 2 2 3 60.43 1.60 1.5320 0 6 2 60.61 2.75 1.5277 6 2 0 61.91 4.32 1.4988 -4 4 2 62.31 1.62 1.4902 4 6 0 62.83 4.32 1.4791 4 4 2 63.22 11.13 1.4709 -6 2 1 63.44 14.05 1.4663 0 4 3 63.61 12.59 1.4628 -2 6 2 63.90 11.21 1.4569 6 2 1 64.06 13.43 1.4535 2 6 2 65.02 1.91 1.4344 0 8 0 67.86 9.69 1.3812 0 8 1 69.98 1.56 1.3444 -6 4 1 70.45 1.08 1.3366 6 0 2 70.97 1.27 1.3281 -2 8 1 71.35 2.46 1.3220 -6 2 2 72.63 2.16 1.3017 6 2 2 74.10 3.65 1.2795 0 0 4 75.67 3.64 1.2568 -4 4 3 76.92 3.31 1.2394 4 4 3 78.36 6.53 1.2203 6 6 0 78.91 1.42 1.2132 -2 2 4 79.73 1.56 1.2027 2 2 4 80.20 5.53 1.1968 -4 8 1 80.62 5.12 1.1917 4 8 1 80.86 4.21 1.1887 8 0 0 82.56 1.93 1.1686 0 4 4 84.36 4.06 1.1481 -6 2 3 85.53 3.07 1.1353 -4 0 4 86.20 4.04 1.1283 6 2 3 87.16 3.11 1.1183 4 0 4 87.44 1.98 1.1155 2 10 0 87.85 1.08 1.1113 -4 8 2 88.23 5.46 1.1075 -6 6 2 89.18 1.50 1.0981 8 4 0 89.20 3.93 1.0979 0 8 3 89.44 4.92 1.0956 6 6 2 89.94 3.02 1.0909 -2 10 1 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.