Retzian-(Ce) Moore P B American Mineralogist 52 (1967) 1603-1613 Crystal chemistry of the basic manganese arsenate minerals 1. The crystal structures of flinkite, Mn2Mn(OH)4(AsO4) and retzian, Mn2Y(OH)4(AsO4) Note: Moore did not determine the REE compostion of the sample. Subsequent work by Dunn & Sturman (1982) concluded that it is Ce dominant Consequently, the REE in this structure has been changed to Ce _database_code_amcsd 0000161 CELL PARAMETERS: 5.6700 12.0300 4.8630 90.000 90.000 90.000 SPACE GROUP: Pban X-RAY WAVELENGTH: 1.541838 Cell Volume: 331.706 Density (g/cm3): 4.534 MAX. ABS. INTENSITY / VOLUME**2: 69.35681923 RIR: 4.981 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 14.73 33.36 6.0150 0 2 0 2 18.24 35.30 4.8630 0 0 1 2 23.53 4.18 3.7817 0 2 1 4 25.24 79.93 3.5289 1 1 1 8 27.24 12.02 3.2740 1 3 0 4 29.71 14.31 3.0075 0 4 0 2 31.56 19.26 2.8350 2 0 0 2 32.98 100.00 2.7158 1 3 1 8 34.99 7.39 2.5644 2 2 0 4 35.08 2.86 2.5579 0 4 1 4 36.69 12.01 2.4492 2 0 1 4 36.97 9.88 2.4315 0 0 2 2 37.47 3.26 2.4000 2 1 1 8 38.62 7.07 2.3316 1 4 1 8 40.00 5.28 2.2543 0 2 2 4 43.19 1.29 2.0948 1 2 2 8 43.89 15.51 2.0629 2 4 0 4 44.97 5.41 2.0156 1 5 1 8 45.23 8.15 2.0050 0 6 0 2 46.52 13.19 1.9520 1 3 2 8 47.90 2.61 1.8991 2 4 1 8 48.12 12.36 1.8908 0 4 2 4 49.15 3.60 1.8536 0 6 1 4 49.38 23.13 1.8456 2 0 2 4 51.81 5.43 1.7645 2 2 2 8 52.50 6.88 1.7430 3 1 1 8 53.61 6.16 1.7096 3 3 0 4 55.90 2.98 1.6447 1 7 0 4 56.19 7.77 1.6370 2 6 0 4 56.79 1.54 1.6210 0 0 3 2 57.11 21.20 1.6129 3 3 1 8 58.69 9.83 1.5731 2 4 2 8 59.32 14.66 1.5580 1 7 1 8 59.59 1.70 1.5514 2 6 1 8 59.78 6.19 1.5469 0 6 2 4 59.84 4.50 1.5456 1 1 3 8 64.10 14.70 1.4527 1 3 3 8 65.69 1.97 1.4214 3 5 1 8 65.89 2.69 1.4175 4 0 0 2 66.44 1.72 1.4072 2 0 3 4 66.90 1.39 1.3985 3 3 2 8 67.94 1.24 1.3797 4 2 0 4 68.93 1.44 1.3623 1 7 2 8 69.01 1.56 1.3609 4 0 1 4 69.18 8.27 1.3579 2 6 2 8 70.95 1.56 1.3284 2 8 0 4 72.22 1.54 1.3081 1 5 3 8 73.92 2.87 1.2822 4 4 0 4 74.14 1.65 1.2789 0 8 2 4 75.67 3.73 1.2568 1 9 1 8 77.61 7.08 1.2302 3 7 1 8 78.03 4.63 1.2246 4 0 2 4 78.07 4.47 1.2240 3 1 3 8 78.71 2.22 1.2157 0 0 4 2 79.71 1.62 1.2030 0 10 0 2 79.95 1.67 1.2000 4 2 2 8 81.90 5.46 1.1763 3 3 3 8 83.53 2.32 1.1575 4 6 0 4 83.79 5.81 1.1545 1 7 3 8 84.03 1.44 1.1518 2 6 3 8 85.13 1.30 1.1397 1 3 4 8 85.64 3.45 1.1342 4 4 2 8 86.31 1.70 1.1271 0 4 4 4 86.35 1.77 1.1267 3 7 2 8 87.25 2.76 1.1173 2 0 4 4 88.24 3.00 1.1074 2 10 0 4 89.01 2.40 1.0997 5 1 1 8 89.14 1.38 1.0986 2 2 4 8 89.45 1.05 1.0955 3 5 3 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.