Ba6Mn24O48 Boullay P, Hervieu M, Raveau B Journal of Solid State Chemistry 132 (1997) 239-248 A new manganite with an original composite tunnel structure: Ba6Mn24O48 _cod_database_code 1001810 _database_code_amcsd 0013934 CELL PARAMETERS: 18.1730 18.1730 2.8360 90.000 90.000 90.000 SPACE GROUP: I4/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 936.611 Density (g/cm3): 5.232 MAX. ABS. INTENSITY / VOLUME**2: 30.00775901 RIR: 1.867 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 6.88 1.73 12.8502 1 1 0 4 13.78 11.06 6.4251 2 2 0 4 15.42 1.16 5.7468 1 3 0 4 20.74 4.15 4.2834 3 3 0 4 21.87 2.10 4.0636 2 4 0 4 21.87 3.95 4.0636 4 2 0 4 24.98 8.88 3.5640 1 5 0 4 27.77 8.96 3.2126 4 4 0 4 28.64 53.22 3.1166 3 5 0 4 28.64 46.78 3.1166 5 3 0 4 29.49 64.15 3.0288 6 0 0 4 31.13 16.68 2.8734 2 6 0 4 31.13 2.05 2.8734 6 2 0 4 31.94 3.28 2.8021 1 0 1 8 33.47 7.56 2.6777 2 1 1 8 33.47 3.95 2.6777 1 2 1 8 34.91 11.41 2.5700 5 5 0 4 35.63 3.46 2.5201 6 4 0 4 36.35 17.63 2.4716 3 2 1 8 36.35 18.74 2.4716 2 3 1 8 37.70 10.50 2.3862 7 3 0 4 37.72 39.05 2.3850 4 1 1 8 39.68 1.16 2.2716 8 0 0 4 40.34 17.62 2.2359 4 3 1 8 40.95 5.47 2.2038 8 2 0 4 41.60 29.79 2.1711 5 2 1 8 41.60 1.44 2.1711 2 5 1 8 42.19 7.67 2.1417 6 6 0 4 42.81 1.26 2.1126 5 7 0 4 42.81 7.76 2.1126 7 5 0 4 44.02 4.69 2.0569 6 1 1 8 44.60 1.33 2.0318 8 4 0 4 45.18 1.35 2.0069 9 1 0 4 45.20 13.66 2.0061 5 4 1 8 45.20 3.11 2.0061 4 5 1 8 46.35 6.34 1.9589 6 3 1 8 46.35 5.72 1.9589 3 6 1 8 47.48 9.87 1.9149 7 0 1 8 48.59 2.54 1.8738 7 2 1 8 49.66 2.39 1.8357 7 7 0 4 50.20 1.23 1.8173 10 0 0 4 50.20 4.12 1.8173 6 8 0 4 50.75 4.32 1.7988 6 5 1 8 51.79 7.52 1.7651 9 5 0 4 51.79 4.67 1.7651 5 9 0 4 51.81 11.09 1.7646 4 7 1 8 51.81 7.21 1.7646 7 4 1 8 51.81 5.13 1.7646 8 1 1 8 53.88 3.96 1.7016 8 3 1 8 53.88 2.95 1.7016 3 8 1 8 54.37 3.35 1.6873 10 4 0 4 55.88 2.98 1.6453 11 1 0 4 55.90 1.74 1.6449 9 0 1 8 56.89 7.31 1.6186 6 7 1 8 56.89 1.51 1.6186 2 9 1 8 57.36 3.95 1.6063 8 8 0 4 57.85 1.37 1.5939 11 3 0 4 57.85 2.15 1.5939 3 11 0 4 57.87 2.92 1.5935 5 8 1 8 59.79 4.07 1.5466 9 4 1 8 59.79 5.31 1.5466 4 9 1 8 60.74 13.05 1.5247 10 1 1 8 61.67 4.14 1.5040 11 5 0 4 62.14 1.04 1.4938 12 2 0 4 62.62 3.86 1.4835 3 10 1 8 63.54 2.68 1.4641 8 7 1 8 63.54 3.41 1.4641 7 8 1 8 65.87 10.33 1.4180 0 0 2 2 66.28 2.20 1.4102 5 10 1 8 66.28 3.57 1.4102 11 2 1 8 66.28 9.83 1.4102 2 11 1 8 66.28 1.37 1.4102 10 5 1 8 67.16 1.82 1.3938 11 7 0 4 68.95 1.23 1.3619 4 11 1 8 72.45 6.12 1.3045 3 12 1 8 72.87 1.25 1.2981 14 0 0 4 73.31 1.17 1.2913 11 6 1 8 73.35 2.77 1.2907 3 5 2 8 73.35 1.75 1.2907 5 3 2 8 73.78 3.17 1.2842 6 0 2 8 74.64 1.03 1.2716 2 6 2 8 76.77 1.89 1.2416 5 5 2 8 78.42 1.47 1.2195 10 9 1 8 78.46 1.78 1.2190 7 3 2 8 79.26 1.59 1.2087 8 11 1 8 80.50 1.40 1.1931 6 14 0 4 81.81 1.57 1.1774 7 5 2 8 85.49 1.12 1.1358 16 0 0 4 86.32 3.08 1.1270 14 8 0 4 87.19 1.45 1.1179 6 8 2 8 88.39 1.17 1.1058 2 15 1 8 88.43 1.74 1.1055 9 5 2 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.