Sr0.7La0.3Nb2O6 Istomin S Y, D'yachenko O G, Antipov E V, Svensson G, Nygren M Materials Research Bulletin 29 (1994) 743-749 Synthesis and characterisation of reduced niobates [Sr1-xLnxNb2O6, Ln = La, Nd] Locality: Synthetic _database_code_amcsd 0018969 CELL PARAMETERS: 11.0530 7.6400 5.5560 90.000 90.000 90.000 SPACE GROUP: Pnma X-RAY WAVELENGTH: 1.541838 Cell Volume: 469.176 Density (g/cm3): 5.447 MAX. ABS. INTENSITY / VOLUME**2: 71.62287272 RIR: 4.281 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 16.04 6.49 5.5265 2 0 0 2 17.87 8.51 4.9641 1 0 1 4 19.76 2.87 4.4934 0 1 1 4 19.83 8.39 4.4778 2 1 0 4 21.35 5.79 4.1626 1 1 1 8 22.69 4.70 3.9182 2 0 1 4 23.29 16.86 3.8200 0 2 0 2 25.55 1.72 3.4864 2 1 1 8 28.40 21.05 3.1424 2 2 0 4 29.08 80.88 3.0706 3 0 1 4 29.51 100.00 3.0274 1 2 1 8 31.40 10.75 2.8491 3 1 1 8 32.22 29.47 2.7780 0 0 2 2 32.40 5.94 2.7633 4 0 0 2 32.74 4.08 2.7352 2 2 1 8 33.25 2.41 2.6942 1 0 2 4 34.52 3.85 2.5985 4 1 0 4 35.33 1.47 2.5408 1 1 2 8 36.31 4.43 2.4741 4 0 1 4 37.58 4.25 2.3932 3 2 1 8 38.12 4.39 2.3606 2 1 2 8 38.90 3.62 2.3151 0 3 1 4 38.94 2.14 2.3129 2 3 0 4 40.28 13.10 2.2389 4 2 0 4 40.68 5.35 2.2181 3 0 2 4 42.43 3.52 2.1302 3 1 2 8 43.48 14.86 2.0813 2 2 2 8 44.09 3.94 2.0540 5 0 1 4 45.74 7.43 1.9836 5 1 1 8 46.32 3.85 1.9602 3 3 1 8 46.35 7.49 1.9591 4 0 2 4 47.61 19.38 1.9100 0 4 0 2 47.94 3.51 1.8977 4 1 2 8 48.62 3.11 1.8727 4 3 0 4 49.48 2.73 1.8422 6 0 0 2 50.72 2.11 1.7999 0 1 3 4 51.00 3.23 1.7908 6 1 0 4 51.41 2.36 1.7775 2 3 2 8 52.08 2.21 1.7560 2 0 3 4 52.32 1.15 1.7486 6 0 1 4 52.49 20.40 1.7432 4 2 2 8 53.55 1.96 1.7114 2 1 3 8 55.37 2.46 1.6593 6 2 0 4 55.54 8.51 1.6547 3 0 3 4 55.79 9.14 1.6479 1 2 3 8 56.76 21.04 1.6218 3 4 1 8 57.66 4.02 1.5988 5 3 1 8 57.79 8.63 1.5955 2 2 3 8 58.58 5.68 1.5757 5 2 2 8 58.66 9.68 1.5739 0 4 2 4 58.77 2.46 1.5712 4 4 0 4 59.31 1.55 1.5582 1 4 2 8 60.15 1.47 1.5384 4 0 3 4 60.28 1.30 1.5353 6 0 2 4 61.00 8.12 1.5189 7 0 1 4 61.02 2.49 1.5184 3 2 3 8 61.62 1.86 1.5052 6 1 2 8 62.33 1.86 1.4897 7 1 1 8 64.37 1.53 1.4474 3 4 2 8 65.53 1.18 1.4245 6 2 2 8 66.22 4.78 1.4114 7 2 1 8 66.89 1.34 1.3987 5 4 1 8 67.05 1.28 1.3957 5 1 3 8 67.42 1.27 1.3890 0 0 4 2 68.03 1.65 1.3782 1 0 4 4 68.62 3.00 1.3676 4 4 2 8 71.10 1.32 1.3259 6 4 0 4 72.35 1.31 1.3061 6 0 3 4 72.76 1.07 1.2997 3 0 4 4 72.79 1.68 1.2993 8 2 0 4 72.98 1.69 1.2964 1 2 4 8 73.22 1.04 1.2927 2 4 3 8 76.11 4.67 1.2506 3 4 3 8 76.88 1.44 1.2400 5 3 3 8 77.37 4.42 1.2334 1 6 1 8 78.81 1.15 1.2144 8 3 0 4 79.82 1.09 1.2016 7 0 3 4 80.10 1.02 1.1981 4 4 3 8 80.22 1.06 1.1966 6 4 2 8 80.86 5.28 1.1888 7 4 1 8 81.56 1.67 1.1803 4 2 4 8 81.85 2.00 1.1769 8 2 2 8 83.61 1.73 1.1565 4 6 0 4 84.72 1.01 1.1441 9 2 1 8 85.76 1.08 1.1329 2 6 2 8 86.60 4.18 1.1240 5 2 4 8 86.67 1.20 1.1234 0 4 4 4 87.23 1.34 1.1176 1 4 4 8 88.45 1.14 1.1053 10 0 0 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.