Ba Cu Lu2 O5 Salinas-Sanchez A, Garcia-Munoz J, Rodriguez-Carvajal J, Saez-Puche R, Martinez J Journal of Solid State Chemistry 100 (1992) 201-211 Structural characterization of R2BaCuO5 (R=Y,Lu,Yb,Tm,Er,Ho,Dy,Gd,Eu and Sm) oxides by X-ray and neutron diffraction _cod_database_code 1006057 _database_code_amcsd 0013748 CELL PARAMETERS: 12.0342 5.6003 7.0395 90.000 90.000 90.000 SPACE GROUP: Pnma X-RAY WAVELENGTH: 1.541838 Cell Volume: 474.428 Density (g/cm3): 8.830 MAX. ABS. INTENSITY / VOLUME**2: 194.5947996 RIR: 7.176 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 14.58 7.83 6.0763 1 0 1 4 14.72 1.76 6.0171 2 0 0 2 20.26 13.94 4.3826 0 1 1 4 25.14 1.27 3.5425 2 1 1 8 25.30 1.64 3.5198 0 0 2 2 26.38 8.03 3.3782 1 0 2 4 29.40 2.38 3.0381 2 0 2 4 29.69 1.61 3.0085 4 0 0 2 30.20 100.00 2.9590 3 1 1 8 30.91 66.10 2.8927 1 1 2 8 31.96 48.40 2.8001 0 2 0 2 32.36 23.39 2.7665 4 0 1 4 33.56 6.47 2.6705 2 1 2 8 33.82 11.14 2.6503 4 1 0 4 33.88 5.57 2.6457 3 0 2 4 36.22 7.37 2.4804 4 1 1 8 37.60 9.06 2.3922 3 1 2 8 39.11 3.13 2.3031 1 0 3 4 39.57 5.19 2.2774 5 0 1 4 41.20 2.27 2.1913 0 2 2 4 41.30 11.47 2.1861 2 0 3 4 41.74 10.91 2.1642 0 1 3 4 41.91 8.07 2.1558 1 2 2 8 42.44 5.99 2.1300 1 1 3 8 42.87 2.60 2.1096 5 1 1 8 43.98 1.82 2.0590 2 2 2 8 44.19 2.41 2.0497 4 2 0 4 44.49 2.19 2.0365 2 1 3 8 45.21 5.71 2.0057 6 0 0 2 46.12 28.65 1.9680 4 2 1 8 47.27 14.54 1.9231 3 2 2 8 47.75 2.62 1.9047 3 1 3 8 49.25 10.24 1.8503 4 0 3 4 50.01 3.68 1.8238 6 1 1 8 50.59 1.24 1.8044 0 3 1 4 51.74 3.74 1.7668 5 2 1 8 51.96 5.51 1.7599 0 0 4 2 52.06 1.07 1.7569 4 1 3 8 52.51 2.45 1.7426 6 0 2 4 52.55 1.12 1.7414 1 0 4 4 53.15 9.42 1.7232 2 2 3 8 54.98 4.60 1.6701 7 0 1 4 55.24 3.32 1.6628 1 1 4 8 55.87 14.96 1.6456 3 3 1 8 56.31 10.70 1.6339 1 3 2 8 56.43 2.61 1.6306 6 2 0 4 57.59 2.12 1.6004 7 1 1 8 57.99 1.09 1.5905 2 3 2 8 58.07 1.03 1.5885 6 2 1 8 58.16 1.94 1.5862 4 3 0 4 59.76 1.47 1.5474 4 3 1 8 59.92 11.53 1.5437 4 2 3 8 60.72 1.88 1.5253 3 3 2 8 60.75 1.15 1.5246 6 0 3 4 61.66 1.16 1.5043 8 0 0 2 62.31 3.41 1.4900 0 2 4 4 62.36 12.01 1.4891 7 1 2 8 62.81 3.51 1.4795 6 2 2 8 62.84 1.13 1.4787 1 2 4 8 63.45 8.36 1.4661 4 1 4 8 63.70 2.63 1.4609 0 3 3 4 64.10 2.70 1.4528 8 1 0 4 64.23 1.48 1.4502 1 3 3 8 65.02 3.07 1.4343 7 2 1 8 65.62 1.23 1.4228 8 1 1 8 66.82 6.79 1.4001 0 4 0 2 67.55 2.42 1.3868 7 0 3 4 68.09 1.81 1.3770 5 1 4 8 68.75 1.86 1.3654 0 1 5 4 70.16 1.16 1.3414 6 3 1 8 70.30 1.67 1.3390 6 2 3 8 71.15 1.05 1.3252 8 2 0 4 71.29 1.81 1.3228 6 0 4 4 73.23 6.40 1.2926 3 1 5 8 74.52 1.11 1.2734 1 3 4 8 76.08 1.27 1.2510 1 2 5 8 76.21 3.08 1.2492 4 4 1 8 76.68 1.41 1.2427 7 2 3 8 77.07 1.05 1.2375 3 4 2 8 77.24 1.87 1.2352 8 1 3 8 79.85 1.85 1.2012 7 1 4 8 80.26 1.51 1.1961 6 2 4 8 80.75 4.94 1.1901 7 3 2 8 81.67 2.12 1.1790 2 4 3 8 81.73 3.38 1.1783 4 3 4 8 81.87 1.59 1.1766 10 1 0 4 82.32 1.14 1.1713 8 3 0 4 84.37 1.20 1.1480 6 4 0 4 86.41 1.16 1.1261 3 0 6 4 87.34 2.85 1.1165 4 4 3 8 89.44 1.62 1.0956 0 4 4 4 89.79 1.01 1.0922 10 2 1 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.