As Cs O5 Ti Protas J, Marnier G, Boulanger B, Menaert B Acta Crystallographica C45 (1989) 1123-1125 Structure cristalline de Cs Ti O (As O4) _cod_database_code 1008427 _database_code_amcsd 0016334 CELL PARAMETERS: 13.4860 10.6880 6.8616 90.000 90.000 90.000 SPACE GROUP: Pn2_1a X-RAY WAVELENGTH: 1.541838 Cell Volume: 989.020 Density (g/cm3): 4.508 MAX. ABS. INTENSITY / VOLUME**2: 36.15153172 RIR: 2.611 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 15.35 3.21 5.7741 0 1 1 2 15.54 6.04 5.7029 2 1 0 2 21.21 9.40 4.1882 2 2 0 2 22.09 4.29 4.0241 1 2 1 4 23.66 19.38 3.7602 3 0 1 4 24.91 100.00 3.5749 2 2 1 4 25.11 17.97 3.5471 3 1 1 4 25.97 9.88 3.4308 0 0 2 2 26.44 10.14 3.3715 4 0 0 2 27.75 13.39 3.2153 4 1 0 2 28.11 23.84 3.1748 1 1 2 4 28.22 71.35 3.1619 0 3 1 2 28.33 58.36 3.1500 2 3 0 2 29.01 6.17 3.0784 1 3 1 4 29.21 8.43 3.0578 2 0 2 4 30.41 71.77 2.9398 2 1 2 4 30.71 84.36 2.9115 4 1 1 4 30.97 24.78 2.8871 0 2 2 2 31.24 5.40 2.8628 2 3 1 4 31.37 21.05 2.8514 4 2 0 2 31.69 6.55 2.8231 1 2 2 4 33.54 5.30 2.6720 0 4 0 1 33.77 2.33 2.6540 2 2 2 4 34.05 3.83 2.6331 4 2 1 4 35.77 3.18 2.5102 5 0 1 4 36.70 2.23 2.4485 1 4 1 4 36.98 1.96 2.4308 1 3 2 4 37.01 5.89 2.4292 3 2 2 4 37.40 8.43 2.4047 4 0 2 4 38.81 4.03 2.3203 2 3 2 4 39.06 8.92 2.3063 4 3 1 4 39.67 7.85 2.2721 5 2 1 4 39.98 4.77 2.2550 1 0 3 4 40.33 2.90 2.2366 0 1 3 2 40.90 6.25 2.2064 1 1 3 4 41.03 5.63 2.1996 6 1 0 2 41.46 1.83 2.1781 3 4 1 4 41.71 7.17 2.1656 3 3 2 4 42.90 6.92 2.1081 0 4 2 2 43.19 2.66 2.0946 6 1 1 4 43.20 10.07 2.0941 4 4 0 2 43.56 2.99 2.0776 1 2 3 4 44.39 9.95 2.0409 0 5 1 2 44.44 3.58 2.0385 3 0 3 4 44.46 12.89 2.0377 2 5 0 2 44.92 1.27 2.0179 1 5 1 4 45.17 7.84 2.0074 2 2 3 4 45.51 5.54 1.9932 4 3 2 4 45.74 12.54 1.9834 6 2 1 4 47.22 8.77 1.9247 0 3 3 2 47.73 1.22 1.9054 1 3 3 4 47.75 3.73 1.9046 3 2 3 4 47.85 6.51 1.9010 6 3 0 2 48.41 5.62 1.8801 6 0 2 4 48.87 4.31 1.8638 4 1 3 4 49.21 3.69 1.8517 6 1 2 4 49.77 1.98 1.8320 6 3 1 4 49.84 5.09 1.8295 5 4 1 4 49.90 3.78 1.8275 7 1 1 4 50.06 6.90 1.8221 5 3 2 4 50.78 1.00 1.7981 1 5 2 4 51.10 31.84 1.7874 4 4 2 4 51.53 1.45 1.7736 6 2 2 4 51.66 6.30 1.7693 3 3 3 4 52.21 4.30 1.7520 2 5 2 4 52.41 2.50 1.7459 4 5 1 4 52.45 13.82 1.7444 5 0 3 4 53.15 8.54 1.7233 1 4 3 4 53.26 3.96 1.7200 6 4 0 2 53.41 4.46 1.7154 0 0 4 2 54.43 6.96 1.6858 8 0 0 2 54.55 1.65 1.6824 3 5 2 4 54.61 4.81 1.6805 1 1 4 4 54.93 1.20 1.6715 4 3 3 4 54.97 12.36 1.6704 2 6 1 4 55.16 1.88 1.6652 8 1 0 2 55.24 2.31 1.6628 6 3 2 4 55.36 1.12 1.6595 7 1 2 4 55.88 1.59 1.6452 7 3 1 4 56.33 1.07 1.6333 0 2 4 2 56.78 3.28 1.6215 1 2 4 4 57.31 1.53 1.6077 8 2 0 2 57.51 3.18 1.6025 7 2 2 4 57.70 2.05 1.5976 4 5 2 4 58.37 3.72 1.5809 0 6 2 2 58.61 2.22 1.5750 4 6 0 2 58.81 1.05 1.5702 1 6 2 4 59.01 2.74 1.5653 8 2 1 4 59.16 2.27 1.5617 0 5 3 2 59.59 1.43 1.5514 1 5 3 4 59.70 2.83 1.5490 6 5 0 2 60.27 3.91 1.5355 6 2 3 4 60.29 4.35 1.5351 3 2 4 4 60.56 1.28 1.5289 4 0 4 4 60.79 1.04 1.5237 7 4 1 4 61.24 1.26 1.5135 4 1 4 4 61.27 4.92 1.5130 8 0 2 4 61.56 4.66 1.5065 2 3 4 4 61.61 1.64 1.5054 5 5 2 4 62.25 1.98 1.4914 3 6 2 4 62.30 3.32 1.4904 0 7 1 2 62.35 1.94 1.4892 2 7 0 2 62.43 8.41 1.4875 8 3 1 4 63.01 2.43 1.4752 3 5 3 4 63.65 1.32 1.4619 6 3 3 4 63.67 3.43 1.4616 3 3 4 4 63.71 3.29 1.4607 5 4 3 4 64.10 2.42 1.4527 5 6 1 4 65.74 1.39 1.4205 7 2 3 4 66.20 1.72 1.4117 6 5 2 4 66.21 1.87 1.4115 2 4 4 4 66.77 1.28 1.4010 7 5 1 4 67.23 1.85 1.3926 8 3 2 4 67.50 1.31 1.3875 1 7 2 4 68.16 2.72 1.3758 2 6 3 4 68.60 4.46 1.3680 6 6 1 4 68.71 2.88 1.3660 2 7 2 4 68.76 1.13 1.3653 1 0 5 4 68.88 4.94 1.3632 4 7 1 4 68.95 2.30 1.3620 9 1 2 4 68.97 5.19 1.3616 7 3 3 4 69.73 1.59 1.3486 10 0 0 2 70.16 1.68 1.3414 3 6 3 4 70.18 6.86 1.3410 5 3 4 4 70.48 3.14 1.3360 0 8 0 1 70.59 1.23 1.3342 2 1 5 4 71.39 1.66 1.3213 6 2 4 4 71.68 1.48 1.3166 8 4 2 4 71.94 2.56 1.3125 3 0 5 4 71.95 1.91 1.3123 2 5 4 4 72.57 2.60 1.3027 3 1 5 4 72.76 3.06 1.2997 8 5 1 4 73.76 1.98 1.2845 10 2 1 4 73.81 1.29 1.2839 9 4 1 4 73.91 1.04 1.2823 3 5 4 4 74.42 1.40 1.2749 1 3 5 4 74.61 1.01 1.2720 7 1 4 4 74.88 1.97 1.2681 8 3 3 4 75.79 1.06 1.2551 10 0 2 4 75.91 2.14 1.2534 9 0 3 4 76.46 2.22 1.2458 7 2 4 4 76.52 2.09 1.2449 0 8 2 2 76.73 2.40 1.2420 4 8 0 2 76.85 2.14 1.2405 10 3 1 4 77.50 1.12 1.2316 3 3 5 4 77.59 1.20 1.2305 1 6 4 4 78.14 1.69 1.2231 5 0 5 4 78.22 1.05 1.2221 7 6 2 4 78.36 2.09 1.2203 9 2 3 4 78.71 2.36 1.2158 1 4 5 4 78.91 3.22 1.2132 7 5 3 4 79.52 1.48 1.2054 8 6 1 4 80.06 1.99 1.1985 5 5 4 4 80.62 1.32 1.1916 6 6 3 4 80.64 2.54 1.1914 3 6 4 4 80.89 1.30 1.1884 4 7 3 4 81.27 1.28 1.1838 10 3 2 4 81.82 1.12 1.1772 11 2 1 4 82.47 1.37 1.1696 2 9 0 2 82.62 1.75 1.1679 4 8 2 4 84.14 1.05 1.1506 1 5 5 4 84.24 1.20 1.1494 1 8 3 4 85.43 1.14 1.1365 1 7 4 4 85.59 1.42 1.1348 9 4 3 4 85.75 1.10 1.1331 1 1 6 4 86.77 1.60 1.1223 9 1 4 4 87.33 1.48 1.1166 8 7 1 4 87.54 1.12 1.1145 1 2 6 4 87.77 2.25 1.1121 5 4 5 4 87.81 2.72 1.1117 7 1 5 4 88.28 1.54 1.1070 2 9 2 4 88.43 1.25 1.1055 4 9 1 4 88.66 1.09 1.1032 2 2 6 4 88.67 1.89 1.1031 12 1 1 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.