Cu2 Eu1.3 O5.65 Sr1.7 Nguyen N, Choisnet J, Raveau B Materials Research Bulletin 17 (1982) 567-573 Intercroissances des structures de type Perovskite et Sr O deficitaires en oxygene: les oxydes Ln2-x Sr1+x Cu2 O6-x/2 (Ln = Sm, Eu, Gd) _cod_database_code 1001157 _database_code_amcsd 0014297 CELL PARAMETERS: 3.7440 11.3370 20.0470 90.000 90.000 90.000 SPACE GROUP: Immm X-RAY WAVELENGTH: 1.541838 Cell Volume: 850.910 Density (g/cm3): 6.603 MAX. ABS. INTENSITY / VOLUME**2: 91.01179346 RIR: 4.488 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.82 31.26 10.0235 0 0 2 2 8.96 6.30 9.8683 0 1 1 4 17.98 7.10 4.9341 0 2 2 4 23.54 7.71 3.7800 0 1 5 4 23.96 8.14 3.7136 0 3 1 4 24.18 7.55 3.6804 1 0 1 4 25.05 1.17 3.5551 1 1 0 4 26.68 13.40 3.3412 0 0 6 2 27.30 1.04 3.2663 1 0 3 4 28.92 1.95 3.0868 1 2 1 8 30.84 6.51 2.8997 1 1 4 8 31.07 4.60 2.8784 0 2 6 4 31.57 5.68 2.8342 0 4 0 2 31.61 1.07 2.8301 1 2 3 8 32.56 68.73 2.7500 0 3 5 4 32.73 91.43 2.7364 1 0 5 4 33.70 100.00 2.6597 1 3 0 4 36.42 7.66 2.4671 0 4 4 4 39.31 1.00 2.2919 0 2 8 4 39.48 8.25 2.2825 0 3 7 4 39.62 12.07 2.2747 1 0 7 4 40.02 2.49 2.2530 0 5 1 4 40.16 10.37 2.2456 1 4 1 8 41.31 3.79 2.1857 0 1 9 4 41.79 3.03 2.1614 0 4 6 4 42.22 4.80 2.1407 1 4 3 8 42.84 8.65 2.1111 1 2 7 8 43.49 19.70 2.0809 1 3 6 8 45.23 16.70 2.0047 0 0 10 2 46.11 6.29 1.9686 1 4 5 8 47.38 1.48 1.9189 0 3 9 4 47.50 1.00 1.9143 1 0 9 4 48.16 16.25 1.8895 0 6 0 2 48.64 26.27 1.8720 2 0 0 2 51.40 1.36 1.7777 0 5 7 4 51.70 1.38 1.7680 0 6 4 4 52.40 2.75 1.7462 1 1 10 8 54.72 1.18 1.6775 2 1 5 8 54.72 2.74 1.6774 1 5 6 8 54.93 1.34 1.6716 2 3 1 8 54.96 4.09 1.6706 0 0 12 2 56.13 1.58 1.6386 1 0 11 4 56.20 2.80 1.6367 0 4 10 4 56.24 1.03 1.6355 1 6 3 8 56.33 2.70 1.6331 2 0 6 4 57.05 2.99 1.6143 0 7 1 4 57.51 1.71 1.6024 0 2 12 4 57.57 18.09 1.6009 1 3 10 8 58.15 5.09 1.5863 1 4 9 8 58.65 1.11 1.5740 0 7 3 4 58.85 1.17 1.5693 2 2 6 8 59.15 1.47 1.5620 2 4 0 4 59.45 16.31 1.5548 1 6 5 8 59.76 20.63 1.5475 2 3 5 8 61.78 2.16 1.5017 0 7 5 4 62.26 2.66 1.4913 2 4 4 8 62.48 2.17 1.4865 1 7 0 4 64.36 3.08 1.4474 2 3 7 8 65.46 1.12 1.4259 1 0 13 4 65.50 4.59 1.4251 1 7 4 8 65.67 1.44 1.4218 2 1 9 8 65.84 2.07 1.4186 1 4 11 8 66.02 1.25 1.4150 2 4 6 8 66.04 4.90 1.4147 1 3 12 8 67.77 1.25 1.3828 1 2 13 8 68.20 3.59 1.3750 0 6 10 4 68.59 7.36 1.3682 2 0 10 4 69.17 2.84 1.3581 1 7 6 8 69.96 2.46 1.3448 1 6 9 8 70.86 7.83 1.3298 2 6 0 4 72.10 2.01 1.3099 0 7 9 4 75.04 1.17 1.2658 1 5 12 8 75.45 1.44 1.2600 0 3 15 4 75.54 1.67 1.2587 1 0 15 4 76.41 2.47 1.2464 2 0 12 4 77.46 1.76 1.2322 2 4 10 8 78.19 1.94 1.2225 2 7 1 8 78.58 1.10 1.2173 2 2 12 8 79.81 1.38 1.2018 0 9 5 4 80.43 2.42 1.1940 1 7 10 8 80.44 2.01 1.1939 1 9 0 4 80.63 4.71 1.1916 3 0 5 4 81.16 5.28 1.1850 3 3 0 4 82.32 1.58 1.1714 2 7 5 8 84.16 1.60 1.1503 1 4 15 8 86.45 1.17 1.1257 0 3 17 4 86.53 1.55 1.1248 1 0 17 4 87.30 1.50 1.1169 3 3 6 8 88.16 2.98 1.1082 2 6 10 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.