Akaganeite Post J E, Heaney P J, Von Dreele R B, Hanson J C American Mineralogist 88 (2003) 782-788 Neutron and temperature-resolved synchrotron X-ray powder diffraction study of akaganeite _database_code_amcsd 0003079 CELL PARAMETERS: 10.5870 3.0311 10.5150 90.000 90.030 90.000 SPACE GROUP: I2/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 337.429 Density (g/cm3): 3.797 MAX. ABS. INTENSITY / VOLUME**2: 12.36094748 RIR: 1.060 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 11.86 93.53 7.4625 -1 0 1 2 11.87 79.23 7.4586 1 0 1 2 16.75 47.36 5.2935 2 0 0 2 16.86 57.66 5.2575 0 0 2 2 23.85 8.48 3.7313 -2 0 2 2 23.86 7.20 3.7293 2 0 2 2 26.64 43.66 3.3461 -3 0 1 2 26.65 78.32 3.3451 3 0 1 2 26.79 81.87 3.3279 -1 0 3 2 26.80 43.97 3.3269 1 0 3 2 33.87 39.49 2.6467 4 0 0 2 34.11 31.62 2.6287 0 0 4 2 35.17 51.32 2.5519 -2 1 1 4 35.17 48.68 2.5516 2 1 1 4 35.21 40.55 2.5489 -1 1 2 4 35.21 54.10 2.5486 1 1 2 4 36.11 9.26 2.4875 -3 0 3 2 36.13 8.11 2.4862 3 0 3 2 38.06 1.51 2.3646 -4 0 2 2 38.07 7.83 2.3636 4 0 2 2 38.22 7.92 2.3549 -2 0 4 2 38.23 2.44 2.3539 2 0 4 2 39.18 32.83 2.2994 3 1 0 4 39.30 29.81 2.2927 0 1 3 4 42.92 6.42 2.1070 -3 1 2 4 42.94 5.15 2.1064 3 1 2 4 42.99 4.68 2.1041 -2 1 3 4 43.00 6.61 2.1036 2 1 3 4 43.60 5.14 2.0759 -5 0 1 2 43.61 1.57 2.0755 5 0 1 2 43.89 2.49 2.0629 -1 0 5 2 43.90 3.51 2.0625 1 0 5 2 46.35 13.26 1.9589 -4 1 1 4 46.36 17.76 1.9586 4 1 1 4 46.52 14.93 1.9520 -1 1 4 4 46.53 16.42 1.9518 1 1 4 4 48.81 8.39 1.8656 -4 0 4 2 48.84 6.71 1.8647 4 0 4 2 51.81 24.66 1.7645 6 0 0 2 52.19 21.44 1.7525 0 0 6 2 52.73 2.29 1.7358 5 1 0 4 52.84 1.13 1.7326 4 1 3 4 52.89 1.62 1.7310 -3 1 4 4 52.91 1.20 1.7304 3 1 4 4 53.00 4.45 1.7279 0 1 5 4 54.88 1.27 1.6731 -6 0 2 2 55.22 1.41 1.6634 2 0 6 2 55.76 21.94 1.6485 -5 1 2 4 55.78 36.92 1.6481 5 1 2 4 55.97 39.03 1.6428 -2 1 5 4 55.99 25.21 1.6424 2 1 5 4 61.15 21.04 1.5156 0 2 0 2 61.43 7.77 1.5092 -6 1 1 4 61.44 1.18 1.5090 6 1 1 4 61.77 8.22 1.5017 1 1 6 4 61.99 1.32 1.4971 -7 0 1 2 62.00 5.10 1.4969 7 0 1 2 62.44 4.01 1.4874 -1 0 7 2 62.54 3.23 1.4852 -1 2 1 4 62.54 3.01 1.4852 1 2 1 4 63.52 2.85 1.4647 6 0 4 2 63.67 3.29 1.4616 -4 0 6 2 63.89 2.85 1.4570 2 2 0 4 63.93 3.36 1.4563 0 2 2 4 64.30 18.04 1.4488 -5 1 4 4 64.32 8.85 1.4482 5 1 4 4 64.38 7.45 1.4471 -4 1 5 4 64.41 16.86 1.4466 4 1 5 4 66.90 1.14 1.3986 -6 1 3 4 67.43 6.82 1.3889 -7 0 3 2 67.46 4.79 1.3884 7 0 3 2 67.79 4.37 1.3824 -3 0 7 2 67.82 6.82 1.3819 3 0 7 2 67.89 2.60 1.3805 -3 2 1 4 67.90 4.92 1.3805 3 2 1 4 67.96 5.27 1.3793 -1 2 3 4 67.97 2.50 1.3792 1 2 3 4 71.77 6.98 1.3152 4 2 0 4 71.91 5.94 1.3130 0 2 4 4 73.12 3.17 1.2943 -3 2 3 4 73.13 3.05 1.2941 3 2 3 4 76.61 1.49 1.2438 -6 0 6 2 76.66 2.48 1.2431 6 0 6 2 77.27 4.52 1.2348 -6 1 5 4 77.40 3.09 1.2330 5 1 6 4 77.97 1.10 1.2255 -5 0 7 2 79.56 1.71 1.2049 -8 1 1 4 79.57 1.07 1.2048 8 1 1 4 80.10 2.57 1.1981 1 1 8 4 81.89 1.76 1.1763 -4 2 4 4 81.92 1.36 1.1761 4 2 4 4 82.52 1.48 1.1690 9 0 1 2 83.18 1.68 1.1613 -1 0 9 2 84.22 6.22 1.1497 6 2 0 4 84.52 5.61 1.1463 0 2 6 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.