Reyerite Merlino S Mineralogical Magazine 52 (1988) 247-256 The structure of reyerite, (Na,K)2Ca14Si22Al2O58(OH)8*6H2O Locality: Niakornak, Greenland Note: anisoU's from ICSD _database_code_amcsd 0014486 CELL PARAMETERS: 9.7650 9.7650 19.0670 90.000 90.000 120.000 SPACE GROUP: P-3 X-RAY WAVELENGTH: 1.541838 Cell Volume: 1574.554 Density (g/cm3): 2.589 MAX. ABS. INTENSITY / VOLUME**2: 5.629217574 RIR: 0.708 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 4.63 53.37 19.0670 0 0 1 2 9.28 52.54 9.5335 0 0 2 2 10.46 4.25 8.4567 1 0 0 6 11.45 15.02 7.7305 0 1 1 6 11.45 2.99 7.7305 1 0 1 6 13.93 3.25 6.3557 0 0 3 2 14.00 3.15 6.3264 0 1 2 6 14.00 5.08 6.3264 1 0 2 6 17.45 6.05 5.0807 0 1 3 6 17.45 2.27 5.0807 1 0 3 6 18.17 3.24 4.8825 1 1 0 6 18.61 3.02 4.7667 0 0 4 2 18.76 2.76 4.7299 2 -1 1 6 20.44 5.80 4.3457 2 -1 2 6 20.44 7.32 4.3457 1 1 2 6 21.01 63.33 4.2284 2 0 0 6 21.40 8.94 4.1525 0 1 4 6 21.40 4.78 4.1525 1 0 4 6 22.97 10.93 3.8719 2 -1 3 6 22.97 9.63 3.8719 1 1 3 6 23.01 1.65 3.8652 0 2 2 6 23.01 2.39 3.8652 2 0 2 6 23.33 16.55 3.8134 0 0 5 2 25.30 20.62 3.5204 0 2 3 6 25.30 30.99 3.5204 2 0 3 6 25.63 19.16 3.4763 1 0 5 6 26.13 1.51 3.4108 2 -1 4 6 27.91 2.10 3.1963 1 2 0 6 27.91 2.92 3.1963 2 1 0 6 28.08 40.22 3.1778 0 0 6 2 28.21 4.48 3.1632 0 2 4 6 28.31 84.34 3.1524 1 2 1 6 28.31 5.38 3.1524 -1 3 1 6 28.31 3.96 3.1524 2 1 1 6 29.47 22.00 3.0306 1 2 2 6 29.47 7.58 3.0306 3 -1 2 6 29.47 1.63 3.0306 2 1 2 6 29.73 2.59 3.0054 2 -1 5 6 29.73 19.24 3.0054 1 1 5 6 30.04 18.38 2.9747 0 1 6 6 31.33 93.74 2.8556 1 2 3 6 31.33 2.18 2.8556 2 1 3 6 31.33 3.39 2.8556 3 -1 3 6 31.59 5.51 2.8319 0 2 5 6 31.59 1.06 2.8319 2 0 5 6 31.74 8.82 2.8189 3 0 0 6 32.10 1.45 2.7886 0 3 1 6 32.10 2.01 2.7886 3 0 1 6 32.88 6.58 2.7239 0 0 7 2 33.14 1.12 2.7032 0 3 2 6 33.14 3.66 2.7032 3 0 2 6 33.65 19.38 2.6634 2 -1 6 6 33.65 5.81 2.6634 1 1 6 6 33.76 43.37 2.6548 1 2 4 6 33.76 7.71 2.6548 -1 3 4 6 33.76 17.11 2.6548 3 -1 4 6 34.60 1.97 2.5927 0 1 7 6 34.82 2.15 2.5768 0 3 3 6 35.33 9.13 2.5404 2 0 6 6 36.69 12.23 2.4496 3 -1 5 6 36.82 8.22 2.4413 2 2 0 6 38.38 2.63 2.3455 3 1 0 6 38.68 1.98 2.3279 4 -1 1 6 38.68 1.14 2.3279 3 1 1 6 39.54 1.16 2.2789 4 -2 3 6 39.57 3.07 2.2776 1 3 2 6 39.57 1.55 2.2776 3 1 2 6 39.76 1.22 2.2668 0 3 5 6 39.76 1.72 2.2668 3 0 5 6 40.01 28.92 2.2536 1 2 6 6 40.01 1.21 2.2536 3 -1 6 6 41.02 6.37 2.2004 4 -1 3 6 42.19 1.76 2.1418 1 1 8 6 42.89 1.25 2.1088 0 3 6 6 42.89 1.07 2.1088 3 0 6 6 42.98 2.81 2.1045 -1 4 4 6 42.98 3.66 2.1045 4 -1 4 6 42.98 3.15 2.1045 3 1 4 6 43.05 1.59 2.1013 0 4 1 6 43.66 14.84 2.0732 1 2 7 6 43.66 1.78 2.0732 2 1 7 6 43.66 6.07 2.0732 3 -1 7 6 44.04 1.97 2.0560 4 -2 5 6 44.04 1.09 2.0560 2 2 5 6 46.74 3.10 1.9435 1 1 9 6 46.83 1.33 1.9401 3 2 0 6 46.83 2.10 1.9401 2 3 0 6 47.08 1.95 1.9301 -2 5 1 6 47.08 3.04 1.9301 3 2 1 6 47.59 2.44 1.9107 1 2 8 6 47.59 1.07 1.9107 -1 3 8 6 47.59 2.16 1.9107 2 1 8 6 47.59 1.76 1.9107 3 -1 8 6 48.22 2.50 1.8871 4 -1 6 6 48.97 2.67 1.8600 1 0 10 6 49.39 54.63 1.8454 4 1 0 6 49.63 1.46 1.8368 -1 5 1 6 49.63 1.22 1.8368 4 1 1 6 50.12 1.49 1.8200 0 3 8 6 50.37 9.24 1.8118 -1 5 2 6 50.37 9.28 1.8118 4 1 2 6 50.37 2.92 1.8118 5 -1 2 6 51.45 2.92 1.7761 1 1 10 6 51.57 5.57 1.7722 -1 5 3 6 51.57 6.32 1.7722 4 1 3 6 51.77 13.06 1.7659 1 2 9 6 51.77 2.38 1.7659 -1 3 9 6 52.66 4.77 1.7382 0 2 10 6 52.82 1.67 1.7334 0 0 11 2 52.95 1.51 1.7292 5 -2 5 6 53.75 2.50 1.7054 4 -2 8 6 53.75 4.05 1.7054 2 2 8 6 54.92 1.69 1.6717 -1 4 8 6 54.92 1.75 1.6717 1 3 8 6 55.30 3.49 1.6611 -1 5 5 6 55.30 3.13 1.6611 4 1 5 6 55.30 5.11 1.6611 5 -1 5 6 56.17 6.47 1.6375 3 -1 10 6 56.32 1.20 1.6335 2 -1 11 6 57.46 3.86 1.6038 0 2 11 6 57.68 1.33 1.5982 2 4 0 6 57.77 1.37 1.5958 -1 5 6 6 57.77 4.01 1.5958 1 4 6 6 57.77 1.05 1.5958 4 1 6 6 57.90 4.43 1.5926 6 -2 1 6 58.34 1.53 1.5816 4 0 8 6 58.55 4.44 1.5766 6 -3 3 6 58.56 1.12 1.5762 6 -2 2 6 58.73 7.24 1.5722 4 -1 9 6 58.73 1.88 1.5722 3 1 9 6 59.66 5.69 1.5499 6 -2 3 6 60.79 1.07 1.5237 1 2 11 6 61.16 8.35 1.5153 6 -2 4 6 61.86 2.57 1.5000 5 1 2 6 62.44 3.25 1.4874 2 0 12 6 62.91 1.84 1.4773 -1 6 3 6 62.95 2.36 1.4765 3 0 11 6 63.07 2.32 1.4740 2 4 5 6 63.42 2.28 1.4667 0 0 13 2 63.79 1.18 1.4591 -1 5 8 6 63.79 1.26 1.4591 4 1 8 6 64.31 2.47 1.4486 6 -3 6 6 64.38 1.65 1.4472 5 1 4 6 65.36 3.90 1.4278 6 -2 6 6 65.62 1.21 1.4228 -1 3 12 6 65.62 5.58 1.4228 3 -1 12 6 66.11 4.34 1.4133 4 -2 11 6 66.23 4.10 1.4111 5 1 5 6 67.13 1.47 1.3943 0 6 2 6 68.01 1.42 1.3784 2 4 7 6 68.01 2.54 1.3784 6 -2 7 6 68.16 1.08 1.3757 7 -3 2 6 68.47 3.41 1.3704 -1 6 6 6 68.95 1.57 1.3619 0 0 14 2 69.07 1.89 1.3599 5 -2 10 6 69.40 6.73 1.3542 2 5 0 6 70.66 4.96 1.3330 3 -1 13 6 71.09 1.52 1.3260 5 -1 10 6 71.19 2.02 1.3244 2 5 3 6 71.19 1.24 1.3244 7 -2 3 6 71.34 1.49 1.3220 0 6 5 6 71.98 2.20 1.3118 2 -1 14 6 72.34 1.18 1.3062 4 3 5 6 72.98 1.63 1.2963 2 0 14 6 73.23 1.15 1.2926 5 -2 11 6 73.36 1.48 1.2906 6 -3 9 6 74.01 1.02 1.2809 5 1 8 6 74.35 2.83 1.2759 6 -2 9 6 75.95 1.05 1.2529 1 2 14 6 76.46 1.11 1.2458 7 -2 6 6 77.29 1.97 1.2344 -1 6 9 6 77.68 1.62 1.2293 2 3 12 6 78.01 2.12 1.2248 2 4 10 6 79.30 1.46 1.2081 7 0 0 6 79.49 1.47 1.2057 0 7 1 6 82.34 1.68 1.1711 5 3 4 6 82.34 2.63 1.1711 0 7 4 6 83.10 1.98 1.1623 3 4 9 6 84.35 1.07 1.1482 -1 5 13 6 86.11 2.61 1.1293 0 7 6 6 86.34 1.22 1.1268 2 4 12 6 86.67 1.23 1.1234 4 3 10 6 87.23 1.43 1.1176 3 1 15 6 88.54 1.06 1.1044 7 0 7 6 89.20 1.07 1.0979 5 1 12 6 89.20 1.39 1.0979 -1 6 12 6 89.20 1.12 1.0979 1 5 12 6 89.42 1.31 1.0958 1 4 14 6 89.65 1.07 1.0936 6 0 11 6 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.