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 = 6.3 GPa _database_code_amcsd 0013281 CELL PARAMETERS: 12.4900 6.3240 10.0690 90.000 90.000 90.000 SPACE GROUP: Pna2_1 X-RAY WAVELENGTH: 1.541838 Cell Volume: 795.318 Density (g/cm3): 3.306 MAX. ABS. INTENSITY / VOLUME**2: 8.052209177 RIR: 0.793 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 14.18 16.73 6.2450 2 0 0 2 15.71 30.25 5.6420 1 1 0 4 16.55 65.72 5.3553 0 1 1 2 16.70 50.01 5.3071 2 0 1 2 18.02 2.41 4.9220 1 1 1 4 21.86 20.05 4.0653 2 1 1 4 22.69 5.02 3.9195 2 0 2 2 25.62 7.62 3.4774 3 1 0 4 26.76 27.84 3.3315 2 1 2 4 27.13 25.36 3.2869 3 1 1 4 28.22 1.16 3.1620 0 2 0 2 28.59 5.38 3.1225 4 0 0 2 29.96 30.73 2.9824 4 0 1 2 30.14 87.05 2.9647 0 1 3 2 30.23 100.00 2.9564 2 0 3 2 30.48 17.60 2.9324 1 2 1 4 31.00 4.00 2.8845 1 1 3 4 31.26 3.63 2.8612 3 1 2 4 31.72 9.80 2.8210 2 2 0 4 31.97 12.56 2.7998 4 1 0 4 32.97 71.75 2.7164 2 2 1 4 33.21 68.35 2.6975 4 1 1 4 33.46 3.63 2.6782 2 1 3 4 33.47 61.70 2.6777 0 2 2 2 33.78 30.85 2.6536 4 0 2 2 34.25 1.84 2.6182 1 2 2 4 35.66 2.34 2.5181 3 2 0 4 35.67 5.83 2.5173 0 0 4 1 36.51 12.47 2.4610 2 2 2 4 36.73 6.60 2.4469 4 1 2 4 38.56 5.61 2.3347 2 0 4 2 38.76 1.24 2.3233 5 1 0 4 39.41 1.07 2.2861 4 0 3 2 39.82 13.34 2.2638 5 1 1 4 39.83 5.10 2.2634 1 2 3 4 40.04 2.69 2.2521 3 2 2 4 40.61 3.42 2.2218 4 2 0 4 41.63 2.77 2.1696 4 2 1 4 41.83 5.53 2.1595 2 2 3 4 42.03 3.72 2.1500 4 1 3 4 42.87 9.11 2.1095 5 1 2 4 43.47 1.84 2.0817 6 0 0 2 43.54 11.26 2.0786 1 3 0 4 44.43 4.44 2.0391 3 1 4 4 44.44 4.48 2.0386 6 0 1 2 44.51 1.66 2.0357 1 3 1 4 45.01 3.20 2.0142 3 2 3 4 46.09 3.07 1.9694 0 2 4 2 46.32 1.51 1.9601 5 2 0 4 46.35 4.27 1.9591 2 3 1 4 46.82 1.38 1.9402 6 1 1 4 47.25 4.18 1.9237 6 0 2 2 47.31 3.27 1.9213 1 3 2 4 47.38 15.66 1.9189 0 1 5 2 47.44 12.24 1.9166 2 0 5 2 48.40 4.68 1.8807 3 3 0 4 48.47 9.51 1.8782 2 2 4 4 48.64 1.22 1.8719 4 1 4 4 49.07 4.35 1.8565 2 3 2 4 49.18 10.05 1.8526 4 2 3 4 49.29 2.50 1.8487 3 3 1 4 49.53 13.66 1.8404 6 1 2 4 49.93 1.74 1.8266 5 2 2 4 51.17 13.40 1.7851 0 3 3 2 51.67 8.87 1.7690 6 0 3 2 51.73 3.99 1.7672 1 3 3 4 52.51 2.53 1.7427 3 1 5 4 52.64 5.36 1.7387 6 2 0 4 53.21 3.82 1.7214 4 3 1 4 53.38 3.04 1.7164 2 3 3 4 53.48 3.44 1.7133 6 2 1 4 53.69 4.78 1.7073 5 1 4 4 53.81 2.23 1.7036 6 1 3 4 54.18 4.61 1.6928 7 1 1 4 54.19 1.79 1.6926 5 2 3 4 55.14 28.85 1.6658 4 2 4 4 55.69 1.62 1.6506 4 3 2 4 56.05 7.18 1.6407 3 3 3 4 56.11 3.76 1.6390 2 2 5 4 56.63 1.43 1.6253 7 1 2 4 57.18 11.18 1.6110 5 3 0 4 57.44 1.51 1.6042 6 0 4 2 58.37 8.81 1.5810 0 4 0 2 58.82 14.28 1.5699 2 1 6 4 59.18 2.48 1.5612 8 0 0 2 59.44 2.81 1.5549 6 1 4 4 59.66 1.38 1.5498 1 4 1 4 59.66 2.39 1.5497 4 3 3 4 59.80 1.01 1.5466 5 2 4 4 59.91 2.66 1.5438 6 2 3 4 59.96 8.00 1.5428 8 0 1 2 60.32 1.09 1.5344 5 3 2 4 60.40 2.86 1.5326 2 4 0 4 60.57 3.56 1.5288 7 1 3 4 61.14 1.88 1.5157 8 1 0 4 61.17 3.24 1.5152 2 4 1 4 61.55 3.03 1.5066 3 3 4 4 61.97 1.62 1.4975 1 4 2 4 62.22 4.05 1.4921 4 2 5 4 62.56 1.07 1.4848 7 2 2 4 62.67 5.45 1.4823 0 2 6 2 62.87 5.75 1.4782 4 0 6 2 63.44 1.00 1.4662 2 4 2 4 63.93 3.02 1.4561 0 3 5 2 64.12 1.56 1.4524 5 3 3 4 64.17 5.33 1.4514 8 1 2 4 64.37 3.47 1.4474 6 0 5 2 64.62 2.46 1.4423 2 2 6 4 64.97 1.97 1.4353 4 3 4 4 65.21 2.70 1.4306 6 2 4 4 65.71 1.47 1.4210 6 3 2 4 65.86 1.72 1.4181 2 3 5 4 65.99 1.19 1.4156 8 0 3 2 66.24 1.26 1.4109 6 1 5 4 66.58 1.35 1.4046 5 2 5 4 66.68 1.56 1.4026 0 1 7 2 66.73 1.54 1.4017 2 0 7 2 66.99 1.94 1.3969 4 4 1 4 67.02 1.77 1.3965 3 2 6 4 67.14 4.36 1.3942 2 4 3 4 67.56 1.87 1.3866 8 2 1 4 68.23 3.15 1.3745 3 3 5 4 68.57 1.42 1.3685 2 1 7 4 69.04 2.28 1.3604 5 1 6 4 69.17 3.48 1.3582 4 4 2 4 69.24 1.94 1.3569 5 3 4 4 69.35 1.33 1.3551 6 3 3 4 69.49 1.59 1.3527 3 4 3 4 69.67 2.14 1.3496 7 3 1 4 70.04 2.27 1.3434 9 1 1 4 70.90 1.57 1.3292 3 1 7 4 71.72 1.71 1.3160 6 2 5 4 71.80 1.10 1.3147 7 3 2 4 72.16 1.49 1.3091 2 4 4 4 72.17 1.84 1.3089 9 1 2 4 72.37 2.87 1.3057 1 3 6 4 72.84 2.15 1.2985 8 1 4 4 73.26 4.76 1.2920 8 2 3 4 73.32 2.06 1.2912 5 4 2 4 73.74 2.16 1.2848 2 3 6 4 73.97 3.60 1.2815 2 2 7 4 74.30 2.36 1.2766 6 3 4 4 75.31 8.45 1.2620 7 3 3 4 75.54 2.52 1.2586 0 0 8 1 75.59 2.21 1.2580 5 3 5 4 75.67 2.15 1.2569 9 1 3 4 76.23 1.39 1.2490 3 2 7 4 76.79 3.92 1.2412 5 4 3 4 77.34 2.85 1.2338 2 0 8 2 77.60 3.13 1.2303 2 5 1 4 78.41 2.27 1.2196 2 4 5 4 78.58 1.72 1.2174 8 3 2 4 79.35 1.89 1.2075 4 2 7 4 79.82 1.20 1.2015 3 5 1 4 80.47 1.36 1.1935 9 1 4 4 80.63 2.26 1.1915 3 4 5 4 81.30 1.33 1.1834 6 0 7 2 81.68 1.71 1.1788 6 4 3 4 82.66 1.77 1.1674 4 0 8 2 82.92 1.05 1.1644 4 5 1 4 84.05 1.44 1.1515 9 3 1 4 84.12 1.06 1.1508 0 4 6 2 84.24 1.47 1.1495 8 2 5 4 86.08 1.63 1.1296 9 3 2 4 86.46 1.28 1.1256 1 5 4 4 86.53 3.16 1.1248 8 1 6 4 86.72 1.03 1.1229 8 3 4 4 88.06 1.21 1.1092 3 4 6 4 88.15 2.75 1.1083 6 2 7 4 88.56 1.44 1.1042 8 4 1 4 88.88 1.55 1.1011 5 5 2 4 89.92 1.79 1.0910 11 1 2 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.