SrSi2O5 Kojitani H, Kido M, Akaogi M Physics and Chemistry of Minerals 32 (2005) 290-294 Rietveld analysis of a new high-pressure strontium silicate SrSi2O5 BaGe2O5 III-type structure _database_code_amcsd 0008965 CELL PARAMETERS: 5.2389 9.2803 13.4406 90.000 90.000 90.000 SPACE GROUP: Cmca X-RAY WAVELENGTH: 1.541838 Cell Volume: 653.463 Density (g/cm3): 4.549 MAX. ABS. INTENSITY / VOLUME**2: 22.63180614 RIR: 1.620 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 19.13 4.44 4.6402 0 2 0 2 20.56 18.05 4.3201 1 1 1 8 23.30 1.15 3.8184 0 2 2 4 23.57 27.30 3.7746 1 1 2 8 26.53 39.82 3.3602 0 0 4 2 27.68 56.12 3.2230 0 2 3 4 27.91 5.11 3.1966 1 1 3 8 33.11 86.94 2.7055 1 1 4 8 34.23 48.10 2.6195 2 0 0 2 34.32 100.00 2.6129 1 3 1 8 36.28 2.76 2.4763 1 3 2 8 38.71 8.78 2.3260 0 2 5 4 38.81 2.30 2.3201 0 4 0 2 39.35 15.55 2.2896 1 3 3 8 39.41 5.46 2.2863 0 4 1 4 40.09 12.11 2.2489 2 2 1 8 40.26 27.32 2.2401 0 0 6 2 41.16 15.30 2.1931 0 4 2 4 41.82 16.47 2.1600 2 2 2 8 43.82 11.42 2.0659 2 0 4 4 43.95 34.08 2.0602 0 4 3 4 44.57 84.12 2.0328 2 2 3 8 44.93 2.47 2.0173 0 2 6 4 47.63 5.34 1.9092 0 4 4 4 48.09 9.09 1.8921 1 3 5 8 48.22 5.92 1.8873 2 2 4 8 51.51 3.12 1.7742 0 2 7 4 51.65 16.94 1.7697 1 1 7 8 52.07 3.73 1.7564 0 4 5 4 52.62 9.47 1.7393 2 2 5 8 53.85 1.41 1.7025 2 0 6 4 53.85 1.15 1.7024 3 1 1 8 54.17 4.27 1.6931 1 5 2 8 54.58 1.16 1.6815 2 4 2 8 55.24 2.84 1.6628 3 1 2 8 56.86 7.88 1.6194 2 4 3 8 57.16 3.72 1.6115 0 4 6 4 57.68 1.42 1.5983 2 2 6 8 58.42 3.49 1.5797 0 2 8 4 58.55 6.87 1.5766 1 1 8 8 59.33 4.32 1.5576 1 3 7 8 59.58 15.21 1.5518 1 5 4 8 59.79 7.47 1.5467 0 6 0 2 60.58 12.89 1.5284 3 1 4 8 61.35 16.11 1.5111 3 3 1 8 62.82 7.10 1.4792 0 4 7 4 63.31 13.75 1.4690 2 2 7 8 63.80 3.61 1.4588 2 4 5 8 64.74 3.40 1.4400 3 3 3 8 65.68 1.90 1.4216 0 2 9 4 66.07 1.58 1.4142 2 0 8 4 66.55 2.96 1.4050 0 6 4 4 68.34 3.50 1.3726 2 4 6 8 69.02 3.95 1.3608 0 4 8 4 69.48 7.62 1.3528 2 2 8 8 70.74 22.32 1.3319 2 6 0 4 71.14 1.01 1.3254 2 6 1 8 71.25 2.44 1.3236 3 3 5 8 72.12 11.27 1.3097 4 0 0 2 72.57 1.01 1.3026 1 3 9 8 73.19 3.01 1.2932 1 5 7 8 73.45 1.61 1.2893 1 1 10 8 73.53 3.26 1.2880 2 4 7 8 74.10 4.97 1.2796 3 1 7 8 75.75 1.40 1.2557 0 4 9 4 76.18 1.27 1.2497 3 5 2 8 76.20 6.00 1.2494 2 2 9 8 77.02 5.45 1.2381 2 6 4 8 78.36 2.64 1.2203 4 0 4 4 78.89 3.98 1.2134 4 2 3 8 79.01 3.66 1.2118 1 5 8 8 79.35 2.76 1.2075 2 4 8 8 79.90 2.49 1.2006 3 1 8 8 79.91 3.71 1.2004 1 7 4 8 80.58 1.36 1.1921 3 3 7 8 80.80 5.42 1.1895 3 5 4 8 81.56 4.31 1.1803 1 1 11 8 83.04 2.96 1.1630 0 4 10 4 83.48 4.80 1.1580 2 2 10 8 84.66 5.42 1.1448 2 6 6 8 84.99 1.42 1.1412 4 2 5 8 85.97 2.79 1.1307 4 0 6 4 86.56 1.77 1.1245 4 4 2 8 86.70 4.05 1.1230 0 8 3 4 86.99 1.86 1.1201 0 0 12 2 87.92 2.06 1.1106 1 3 11 8 88.45 5.68 1.1053 4 4 3 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.