KTiOPO4: Allan D R, Nelmes R J Journal of Physics: Condensed Matter 8 (1996) 2337-2363 The structural pressure dependence of potassium titanyl phosphate (KTP) to 8 GPa Sample: P = 8.2 GPa _database_code_amcsd 0013282 CELL PARAMETERS: 12.3870 6.3110 9.9660 90.000 90.000 90.000 SPACE GROUP: Pna2_1 X-RAY WAVELENGTH: 1.541838 Cell Volume: 779.086 Density (g/cm3): 3.375 MAX. ABS. INTENSITY / VOLUME**2: 8.295852354 RIR: 0.800 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 14.30 15.82 6.1935 2 0 0 2 15.76 28.98 5.6232 1 1 0 4 16.63 63.07 5.3318 0 1 1 2 16.85 47.73 5.2604 2 0 1 2 18.11 2.56 4.8974 1 1 1 4 22.00 20.64 4.0408 2 1 1 4 22.91 5.01 3.8824 2 0 2 2 25.78 6.80 3.4552 3 1 0 4 26.96 25.72 3.3068 2 1 2 4 27.32 23.94 3.2646 3 1 1 4 28.28 1.19 3.1555 0 2 0 2 28.83 7.38 3.0968 4 0 0 2 30.22 33.28 2.9573 4 0 1 2 30.41 82.01 2.9396 0 1 3 2 30.54 100.00 2.9275 2 0 3 2 30.58 17.72 2.9233 1 2 1 4 31.27 3.19 2.8602 1 1 3 4 31.51 3.47 2.8394 3 1 2 4 31.83 9.95 2.8116 2 2 0 4 32.20 15.04 2.7801 4 1 0 4 33.10 70.70 2.7060 2 2 1 4 33.46 62.51 2.6779 4 1 1 4 33.62 61.43 2.6659 0 2 2 2 33.75 4.11 2.6557 2 1 3 4 34.09 26.38 2.6302 4 0 2 2 34.41 1.90 2.6062 1 2 2 4 35.82 2.96 2.5072 3 2 0 4 36.05 6.79 2.4915 0 0 4 1 36.70 12.30 2.4487 2 2 2 4 37.03 7.20 2.4278 4 1 2 4 38.96 5.52 2.3115 2 0 4 2 39.79 1.09 2.2652 4 0 3 2 40.08 5.41 2.2498 1 2 3 4 40.14 15.71 2.2467 5 1 1 4 40.27 3.36 2.2397 3 2 2 4 40.83 3.01 2.2102 4 2 0 4 41.87 2.68 2.1578 4 2 1 4 42.10 6.78 2.1461 2 2 3 4 42.40 3.88 2.1320 4 1 3 4 43.23 7.64 2.0928 5 1 2 4 43.64 11.17 2.0740 1 3 0 4 43.85 1.30 2.0645 6 0 0 2 44.63 1.69 2.0305 1 3 1 4 44.83 5.09 2.0216 6 0 1 2 44.85 3.87 2.0209 3 1 4 4 45.32 2.78 2.0012 3 2 3 4 46.44 2.83 1.9554 0 2 4 2 46.49 4.48 1.9533 2 3 1 4 46.61 2.03 1.9486 5 2 0 4 47.21 1.85 1.9252 6 1 1 4 47.48 2.96 1.9147 1 3 2 4 47.68 3.74 1.9073 6 0 2 2 47.86 16.04 1.9007 0 1 5 2 47.95 11.42 1.8974 2 0 5 2 48.57 4.68 1.8744 3 3 0 4 48.84 10.36 1.8647 2 2 4 4 49.10 1.33 1.8554 4 1 4 4 49.27 4.29 1.8496 2 3 2 4 49.48 2.80 1.8421 3 3 1 4 49.54 10.26 1.8401 4 2 3 4 49.95 14.89 1.8257 6 1 2 4 50.28 2.04 1.8148 5 2 2 4 51.41 12.64 1.7773 0 3 3 2 51.98 4.20 1.7593 1 3 3 4 52.16 8.03 1.7535 6 0 3 2 52.59 1.19 1.7401 4 3 0 4 53.00 4.33 1.7276 6 2 0 4 53.04 2.80 1.7265 3 1 5 4 53.45 3.87 1.7142 4 3 1 4 53.65 3.33 1.7083 2 3 3 4 53.86 3.74 1.7022 6 2 1 4 54.20 4.60 1.6924 5 1 4 4 54.30 1.41 1.6895 6 1 3 4 54.60 1.20 1.6808 5 2 3 4 54.65 5.26 1.6795 7 1 1 4 55.58 25.11 1.6534 4 2 4 4 55.97 2.00 1.6428 4 3 2 4 56.36 6.50 1.6325 3 3 3 4 56.60 4.70 1.6261 2 2 5 4 57.13 1.48 1.6122 7 1 2 4 57.47 10.51 1.6035 5 3 0 4 58.02 1.63 1.5897 6 0 4 2 58.28 1.03 1.5832 5 3 1 4 58.50 8.74 1.5777 0 4 0 2 59.45 14.30 1.5549 2 1 6 4 59.72 1.39 1.5484 8 0 0 2 59.82 1.39 1.5462 1 4 1 4 60.01 3.46 1.5415 6 1 4 4 60.02 1.97 1.5415 4 3 3 4 60.30 1.29 1.5349 5 2 4 4 60.39 2.86 1.5327 6 2 3 4 60.51 7.67 1.5300 8 0 1 2 60.56 2.86 1.5289 2 4 0 4 60.67 1.42 1.5265 5 3 2 4 61.13 3.61 1.5161 7 1 3 4 61.34 3.58 1.5112 2 4 1 4 61.68 1.81 1.5038 8 1 0 4 61.95 3.03 1.4979 3 3 4 4 62.17 1.54 1.4932 1 4 2 4 62.46 1.47 1.4869 8 1 1 4 62.77 4.27 1.4802 4 2 5 4 62.85 1.18 1.4786 8 0 2 2 63.09 1.08 1.4735 6 3 0 4 63.27 4.81 1.4698 0 2 6 2 63.56 5.66 1.4637 4 0 6 2 64.39 2.73 1.4469 0 3 5 2 64.53 1.66 1.4441 5 3 3 4 64.75 5.28 1.4396 8 1 2 4 65.04 3.39 1.4339 6 0 5 2 65.24 2.58 1.4301 2 2 6 4 65.42 2.31 1.4266 4 3 4 4 65.78 1.92 1.4197 6 2 4 4 66.11 1.11 1.4133 3 4 2 4 66.13 1.35 1.4130 6 3 2 4 66.34 1.63 1.4089 2 3 5 4 66.64 1.05 1.4034 8 0 3 2 66.92 1.07 1.3983 6 1 5 4 67.18 1.21 1.3934 5 2 5 4 67.26 2.10 1.3920 4 4 1 4 67.43 4.31 1.3889 2 4 3 4 67.43 1.30 1.3888 0 1 7 2 67.51 1.57 1.3875 2 0 7 2 67.66 1.49 1.3847 3 2 6 4 68.11 2.08 1.3767 8 2 1 4 68.75 3.51 1.3655 3 3 5 4 69.34 1.60 1.3552 2 1 7 4 69.47 3.29 1.3530 4 4 2 4 69.74 1.42 1.3484 5 3 4 4 69.78 2.18 1.3478 5 1 6 4 69.81 1.40 1.3472 3 4 3 4 69.83 1.09 1.3469 6 3 3 4 70.13 2.24 1.3418 7 3 1 4 70.69 2.11 1.3326 9 1 1 4 71.70 1.65 1.3163 3 1 7 4 72.39 2.00 1.3055 6 2 5 4 72.54 1.38 1.3031 2 4 4 4 72.85 2.18 1.2983 9 1 2 4 72.97 2.99 1.2965 1 3 6 4 73.57 2.10 1.2874 8 1 4 4 73.68 2.49 1.2857 5 4 2 4 73.91 4.44 1.2823 8 2 3 4 74.36 2.14 1.2757 2 3 6 4 74.74 3.39 1.2702 2 2 7 4 74.87 2.56 1.2683 6 3 4 4 75.87 8.46 1.2540 7 3 3 4 76.20 2.17 1.2494 5 3 5 4 76.41 1.94 1.2465 9 1 3 4 76.46 1.99 1.2457 0 0 8 1 77.03 1.53 1.2380 3 2 7 4 77.22 3.13 1.2354 5 4 3 4 77.82 3.05 1.2274 2 5 1 4 78.28 2.66 1.2213 2 0 8 2 78.91 2.21 1.2131 2 4 5 4 79.18 1.92 1.2097 8 3 2 4 80.08 1.14 1.1983 3 5 1 4 80.16 1.08 1.1974 6 2 6 4 80.20 1.83 1.1969 4 2 7 4 81.16 2.29 1.1850 3 4 5 4 81.30 1.54 1.1834 9 1 4 4 82.19 1.63 1.1729 6 4 3 4 82.26 1.64 1.1720 6 0 7 2 83.68 2.03 1.1557 4 0 8 2 84.72 1.39 1.1441 9 3 1 4 84.74 1.18 1.1439 0 4 6 2 85.09 1.24 1.1402 8 2 5 4 86.79 1.55 1.1221 9 3 2 4 86.87 1.26 1.1213 1 5 4 4 87.23 1.15 1.1176 5 5 1 4 87.50 2.82 1.1148 8 1 6 4 88.74 1.03 1.1024 3 4 6 4 89.12 3.05 1.0987 6 2 7 4 89.15 1.48 1.0984 8 4 1 4 89.29 1.29 1.0971 5 5 2 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.