Y3NiAl3Ge2 Zhao J T, Parthe E Acta Crystallographica C46 (1990) 2273-2276 Y3NiAl3Ge2, a quaternary substitution variant of the hexagonal Fe2P type _database_code_amcsd 0010210 CELL PARAMETERS: 6.9481 6.9481 4.1565 90.000 90.000 90.000 SPACE GROUP: P-62m X-RAY WAVELENGTH: 1.541838 Cell Volume: 200.660 Density (g/cm3): 4.564 MAX. ABS. INTENSITY / VOLUME**2: 49.24378895 RIR: 3.513 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 12.74 4.77 6.9481 1 0 0 6 18.06 1.14 4.9130 -1 1 0 6 18.06 30.74 4.9130 1 1 0 3 21.38 8.05 4.1565 0 0 1 2 24.96 4.72 3.5670 1 0 1 12 25.64 14.15 3.4741 2 0 0 6 28.12 1.74 3.1732 1 -1 1 12 28.12 70.19 3.1732 1 1 1 6 28.73 19.74 3.1073 -1 2 0 3 28.73 27.68 3.1073 2 1 0 6 33.62 100.00 2.6656 2 0 1 12 36.09 71.31 2.4887 2 -1 1 6 36.09 21.86 2.4887 2 1 1 12 36.58 2.72 2.4565 -2 2 0 6 36.58 10.19 2.4565 2 2 0 3 38.89 40.53 2.3160 3 0 0 6 41.08 12.89 2.1972 3 1 0 6 41.08 10.17 2.1972 -1 3 0 6 42.76 24.87 2.1148 2 -2 1 12 42.76 2.46 2.1148 2 2 1 6 43.55 37.37 2.0782 0 0 2 2 46.77 17.46 1.9425 3 1 1 12 46.77 10.02 1.9425 3 -1 1 12 47.16 2.45 1.9271 3 2 0 6 47.16 6.71 1.9271 -2 3 0 6 47.50 4.67 1.9140 1 1 2 6 51.22 3.82 1.7835 2 0 2 12 52.33 24.28 1.7483 3 2 1 12 52.33 6.97 1.7483 3 -2 1 12 53.01 9.32 1.7275 2 1 2 12 53.01 6.56 1.7275 2 -1 2 6 54.45 4.88 1.6852 4 1 0 6 54.45 5.42 1.6852 -1 4 0 6 56.16 3.12 1.6377 3 3 0 3 56.16 6.43 1.6377 -3 3 0 6 58.14 1.25 1.5866 2 -2 2 12 58.14 4.81 1.5866 2 2 2 6 59.16 6.25 1.5617 4 1 1 12 59.16 8.23 1.5617 4 -1 1 12 59.50 4.45 1.5536 -2 4 0 3 59.50 4.13 1.5536 4 2 0 6 59.79 20.88 1.5468 3 0 2 12 61.41 7.36 1.5098 3 1 2 12 61.41 5.82 1.5098 3 -1 2 12 63.97 1.40 1.4553 4 -2 1 6 63.97 6.53 1.4553 4 2 1 12 66.13 4.59 1.4131 3 -2 2 12 66.13 1.57 1.4131 3 2 2 12 67.39 2.73 1.3896 -3 4 0 6 67.39 5.87 1.3896 5 0 0 6 67.39 1.09 1.3896 4 3 0 6 68.91 2.20 1.3626 -1 5 0 6 70.64 4.48 1.3335 1 1 3 6 71.60 4.46 1.3179 4 -3 1 12 71.60 2.56 1.3179 4 3 1 12 71.60 11.03 1.3179 5 0 1 12 72.17 4.42 1.3089 4 -1 2 12 72.17 3.76 1.3089 4 1 2 12 73.08 3.21 1.2948 5 -1 1 12 73.38 5.16 1.2902 5 2 0 6 73.60 8.56 1.2869 2 0 3 12 73.64 2.56 1.2863 3 3 2 6 73.64 5.24 1.2863 3 -3 2 12 75.07 7.45 1.2654 2 -1 3 6 75.07 2.07 1.2654 2 1 3 12 76.56 3.87 1.2444 4 -2 2 6 76.56 3.78 1.2444 4 2 2 12 77.46 6.72 1.2322 5 -2 1 12 77.75 1.13 1.2283 4 4 0 3 79.41 3.39 1.2068 2 -2 3 12 81.76 3.87 1.1779 4 4 1 6 82.27 1.56 1.1720 3 -1 3 12 82.27 2.99 1.1720 3 1 3 12 83.73 2.93 1.1552 4 -3 2 12 83.73 1.16 1.1552 4 3 2 12 83.73 6.14 1.1552 5 0 2 12 84.60 3.37 1.1454 5 3 1 12 84.60 5.24 1.1454 5 -3 1 12 84.89 1.19 1.1423 6 1 0 6 85.14 2.24 1.1395 5 -1 2 12 86.52 1.36 1.1249 3 -2 3 12 86.52 4.95 1.1249 3 2 3 12 87.43 1.27 1.1155 6 0 1 12 88.84 3.11 1.1014 6 1 1 12 89.13 1.30 1.0986 -2 6 0 6 89.13 1.10 1.0986 6 2 0 6 89.38 5.94 1.0962 5 2 2 12 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.