Phillipsite-K Diffraction data computed using the structure from the paper listed below, along with the cell parameters refined from the powder pattern for R050078 Gualtieri A F Journal of Applied Crystallography 33 (2000) 267-278 Accuracy of XRPD QPA using the combined Rietveld-RIR method Locality: Vallerano, Rome, Italy CELL PARAMETERS: 9.888100 14.40400 8.684800 90.00000 124.2710 90.00000 SPACE GROUP: P2_1/m X-RAY WAVELENGTH: 1.541838 2-THETA INTENSITY D-SPACING H K L 10.86 1.17 8.1570 1 0 0 10.91 7.80 8.1188 -1 0 1 12.44 71.67 7.1182 0 2 0 12.39 65.87 7.1462 0 0 1 12.51 32.07 7.0776 1 1 0 12.56 8.89 7.0526 -1 1 1 13.87 86.98 6.3867 0 1 1 16.53 70.42 5.3632 1 2 0 16.57 49.80 5.3523 -1 2 1 17.59 32.96 5.0432 0 2 1 17.92 56.57 4.9496 -2 0 1 18.99 8.73 4.6751 -2 1 1 20.65 14.00 4.3013 1 0 1 20.73 14.18 4.2845 -1 0 2 21.67 4.35 4.1018 1 3 0 21.58 36.00 4.1174 1 1 1 21.69 9.50 4.0970 -1 3 1 21.66 26.90 4.1027 -1 1 2 21.79 1.46 4.0785 2 0 0 21.87 27.36 4.0637 -2 2 1 21.90 5.04 4.0594 -2 0 2 22.49 1.60 3.9532 0 3 1 22.68 5.92 3.9208 2 1 0 24.17 2.45 3.6814 1 2 1 24.24 2.42 3.6708 -1 2 2 25.70 1.07 3.4656 0 1 2 26.01 1.71 3.4254 -2 3 1 27.33 50.60 3.2621 1 4 0 27.36 25.18 3.2596 -1 4 1 28.00 100.00 3.1858 0 4 1 27.71 41.64 3.2187 -3 0 1 27.93 99.81 3.1933 0 2 2 27.99 9.20 3.1870 1 3 1 27.77 13.32 3.2116 -3 0 2 28.05 11.89 3.1801 -1 3 2 28.42 57.41 3.1395 -3 1 1 28.48 55.12 3.1329 -3 1 2 28.86 5.09 3.0931 2 3 0 28.94 2.11 3.0847 -2 3 2 30.47 23.88 2.9328 -3 2 1 30.53 16.69 2.9275 -3 2 2 30.78 1.73 2.9040 2 0 1 30.93 11.22 2.8902 -2 0 3 31.33 1.04 2.8544 0 3 2 32.65 11.18 2.7421 1 4 1 32.55 24.73 2.7499 1 0 2 32.70 28.25 2.7377 -1 4 2 32.64 8.04 2.7426 -1 0 3 33.32 17.58 2.6882 1 5 0 33.34 8.51 2.6868 -1 5 1 33.17 26.07 2.7000 1 1 2 33.09 5.01 2.7063 -3 0 3 33.26 18.05 2.6931 -1 1 3 33.31 15.87 2.6888 2 2 1 33.40 3.45 2.6816 2 4 0 33.47 1.92 2.6762 -2 4 2 33.45 21.47 2.6779 -2 2 3 33.54 10.25 2.6707 3 1 0 33.88 7.48 2.6451 0 5 1 33.63 2.40 2.6638 -3 3 1 33.69 1.38 2.6598 -3 3 2 33.70 13.40 2.6587 -3 1 3 34.97 6.17 2.5652 1 2 2 35.05 2.75 2.5592 -1 2 3 35.33 7.22 2.5400 3 2 0 35.59 4.04 2.5216 0 4 2 35.48 13.55 2.5296 -3 2 3 36.39 2.97 2.4681 -2 5 1 36.38 1.31 2.4684 -2 3 3 36.85 1.24 2.4382 -4 1 2 37.67 14.45 2.3873 -3 4 1 37.71 22.36 2.3844 -3 4 2 37.80 3.32 2.3793 1 3 2 37.75 1.98 2.3821 0 0 3 38.30 1.41 2.3494 0 1 3 38.55 12.60 2.3346 2 5 0 38.61 2.51 2.3310 -2 5 2 38.50 6.59 2.3375 -4 2 2 38.54 1.72 2.3349 -4 0 3 38.96 1.76 2.3111 -4 1 1 39.08 1.77 2.3041 -4 1 3 40.06 8.93 2.2500 2 4 1 40.49 5.53 2.2268 0 5 2 41.12 3.51 2.1943 -4 3 2 41.48 1.79 2.1761 1 4 2 41.55 2.49 2.1724 -1 4 3 41.79 6.30 2.1606 3 4 0 41.92 16.37 2.1542 -3 4 3 41.99 1.08 2.1506 2 0 2 42.22 1.38 2.1396 -2 6 1 42.44 1.83 2.1289 0 3 3 42.49 2.30 2.1265 2 1 2 43.54 2.68 2.0776 1 6 1 43.58 2.89 2.0757 -1 6 2 43.66 2.49 2.0721 3 2 1 43.96 1.56 2.0587 2 2 2 44.19 2.92 2.0485 -2 6 2 44.13 4.79 2.0513 -2 2 4 44.55 1.39 2.0331 2 5 1 44.40 3.15 2.0392 4 0 0 44.66 3.75 2.0283 -2 5 3 45.28 2.28 2.0017 1 0 3 45.38 3.86 1.9977 -1 0 4 45.97 4.24 1.9734 1 7 0 45.75 1.39 1.9822 1 1 3 46.04 1.69 1.9704 3 3 1 46.26 1.83 1.9616 -3 5 3 46.24 1.29 1.9623 -3 3 4 46.29 1.84 1.9604 4 2 0 46.24 6.69 1.9624 -5 0 2 46.49 2.84 1.9523 -4 4 3 46.31 1.49 1.9598 -5 0 3 46.70 2.47 1.9441 -5 1 2 47.59 1.30 1.9099 -3 6 1 47.63 2.50 1.9084 -3 6 2 49.22 1.73 1.8502 3 4 1 49.65 1.84 1.8354 -2 4 4 49.89 6.04 1.8270 0 5 3 50.35 1.65 1.8114 -5 3 3 50.80 3.88 1.7965 1 6 2 50.39 4.94 1.8102 -5 1 4 51.32 17.35 1.7796 0 8 0 51.10 7.41 1.7865 0 0 4 51.69 1.17 1.7675 0 7 2 51.63 10.60 1.7694 4 4 0 51.83 10.59 1.7631 -4 4 4 52.56 2.13 1.7402 3 0 2 52.81 1.31 1.7328 0 2 4 52.82 2.31 1.7324 -3 0 5 53.10 4.38 1.7238 3 5 1 52.99 1.26 1.7273 3 1 2 53.25 1.50 1.7193 -3 7 1 53.29 2.21 1.7182 -3 7 2 53.28 3.18 1.7184 -3 5 4 53.21 6.21 1.7205 4 0 1 53.24 1.00 1.7197 -3 1 5 53.47 11.45 1.7127 -4 6 2 53.50 5.24 1.7119 -4 0 5 54.56 7.07 1.6811 0 6 3 54.49 1.02 1.6832 -3 2 5 54.68 4.09 1.6777 -2 0 5 54.88 6.89 1.6720 0 3 4 56.14 3.40 1.6375 1 5 3 55.68 12.10 1.6499 -6 0 3 56.28 1.07 1.6336 -1 7 3 56.48 1.17 1.6285 -5 4 1 56.96 1.29 1.6158 -5 5 2 57.02 1.81 1.6143 -5 5 3 57.06 1.85 1.6133 -5 1 5 57.59 1.84 1.5997 3 6 1 57.86 3.55 1.5929 0 8 2 57.21 1.38 1.6093 -6 0 2 57.29 1.78 1.6073 -6 2 3 57.71 5.38 1.5967 0 4 4 57.76 4.64 1.5953 -3 6 4 57.35 1.06 1.6058 -6 0 4 57.97 1.87 1.5900 -2 6 4 59.31 1.25 1.5574 -3 8 1 58.79 2.88 1.5697 -6 2 2 59.21 1.06 1.5598 1 1 4 59.85 3.89 1.5444 0 9 1 59.92 5.49 1.5428 5 3 0 60.23 3.52 1.5356 -4 7 1 60.37 1.32 1.5324 1 2 4 60.47 1.38 1.5301 -1 2 5 61.12 2.01 1.5153 -2 8 3 60.73 1.09 1.5241 -6 3 2 62.09 1.68 1.4940 1 8 2 62.53 2.18 1.4846 1 9 1 62.56 1.54 1.4839 -1 9 2 62.52 2.11 1.4848 3 5 2 62.75 1.59 1.4800 -3 5 5 63.39 4.62 1.4664 -6 4 2 63.52 1.28 1.4637 -6 4 4 63.55 1.43 1.4631 -6 2 5 64.25 2.20 1.4489 2 5 3 64.36 2.31 1.4466 -5 6 4 64.47 1.23 1.4445 4 1 2 64.90 1.96 1.4359 1 4 4 65.38 1.52 1.4265 3 1 3 65.61 1.41 1.4221 0 1 5 66.20 1.12 1.4108 -5 1 6 66.71 2.42 1.4013 0 2 5 67.72 1.88 1.3828 -6 4 1 68.38 6.46 1.3712 1 9 2 68.32 1.03 1.3722 -3 8 4 68.60 3.40 1.3673 3 9 0 68.51 1.75 1.3689 -2 8 4 67.97 5.79 1.3784 -6 4 5 68.69 2.79 1.3657 -3 9 3 69.33 1.81 1.3546 -6 6 3 70.19 1.19 1.3400 -5 6 5 70.81 3.67 1.3299 3 4 3 71.26 2.59 1.3225 0 10 2 71.03 2.98 1.3263 0 4 5 71.08 5.90 1.3254 -3 4 6 72.21 1.18 1.3074 -1 6 5 73.41 1.33 1.2891 1 0 5 73.44 1.06 1.2886 -4 5 6 74.13 1.25 1.2783 2 10 1 74.21 2.32 1.2771 -2 10 3 74.19 1.13 1.2774 3 9 1 74.04 1.43 1.2796 -2 4 6 74.69 1.03 1.2701 -7 0 1 75.33 1.34 1.2608 0 8 4 74.80 1.10 1.2684 -7 4 2 75.01 1.66 1.2654 -7 4 5 75.24 1.44 1.2621 -7 -5 3 75.04 2.02 1.2650 -7 0 6 76.53 1.47 1.2440 1 3 5 77.05 2.39 1.2369 4 8 1 78.26 1.50 1.2207 -2 8 5 78.16 1.30 1.2221 -6 5 6 79.02 1.17 1.2110 3 0 4 79.82 1.55 1.2008 -3 11 1 79.85 1.37 1.2004 -3 11 2 79.36 1.39 1.2067 3 1 4 81.76 1.05 1.1771 6 3 1 82.26 1.84 1.1713 4 4 3 85.68 1.05 1.1331 -5 9 5 87.27 1.07 1.1165 3 8 3 87.27 1.07 1.1165 3 8 3 XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.