Fluorapophyllite-(Na) Miura Y, Kato T, Rucklidge J C, Matsueda H American Mineralogist 66 (1981) 410-423 Natroapophyllite, a new orthorhombic sodium analog of apophyllite II. Crystal structure Locality: the Sampo mine, Okayama, Japan _database_code_amcsd 0000830 CELL PARAMETERS: 8.8750 8.8810 15.7900 90.000 90.000 90.000 SPACE GROUP: Pnnm X-RAY WAVELENGTH: 1.541838 Cell Volume: 1244.550 Density (g/cm3): 2.378 MAX. ABS. INTENSITY / VOLUME**2: 4.805670804 RIR: 0.658 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 11.21 4.20 7.8950 0 0 2 2 11.43 93.57 7.7406 0 1 1 4 11.44 100.00 7.7367 1 0 1 4 14.11 9.38 6.2777 1 1 0 4 19.61 16.96 4.5279 0 1 3 4 19.61 22.49 4.5271 1 0 3 4 20.00 28.35 4.4405 0 2 0 2 20.01 28.01 4.4375 2 0 0 2 22.39 4.47 3.9712 1 2 0 4 22.40 3.81 3.9696 2 1 0 4 22.52 28.18 3.9475 0 0 4 2 23.09 21.12 3.8512 1 2 1 8 23.10 22.10 3.8498 2 1 1 8 25.10 52.98 3.5477 1 2 2 8 25.11 51.84 3.5465 2 1 2 8 26.68 8.67 3.3417 1 1 4 8 28.15 1.67 3.1701 1 2 3 8 28.16 2.30 3.1693 2 1 3 8 28.44 70.08 3.1388 2 2 0 4 30.03 44.54 2.9755 0 1 5 4 30.03 42.95 2.9753 1 0 5 4 30.65 7.49 2.9168 2 2 2 8 30.73 14.32 2.9096 0 3 1 4 30.75 15.50 2.9077 3 0 1 4 31.97 5.62 2.7996 1 2 4 8 31.97 5.00 2.7991 2 1 4 8 32.38 4.52 2.7648 1 3 1 8 32.40 4.47 2.7634 3 1 1 8 33.88 9.82 2.6458 1 3 2 8 33.90 8.66 2.6446 3 1 2 8 36.26 53.83 2.4776 1 3 3 8 36.27 54.61 2.4766 3 1 3 8 36.35 27.62 2.4717 1 2 5 8 36.35 27.90 2.4713 2 1 5 8 36.50 1.16 2.4620 3 2 0 4 36.58 4.94 2.4568 2 2 4 8 36.94 2.89 2.4332 2 3 1 8 36.95 2.67 2.4326 3 2 1 8 37.04 9.32 2.4270 1 1 6 8 38.29 3.03 2.3509 2 3 2 8 38.29 2.92 2.3504 3 2 2 8 40.44 2.30 2.2306 2 3 3 8 40.45 2.82 2.2301 3 2 3 8 41.15 4.43 2.1937 1 2 6 8 41.15 4.59 2.1934 2 1 6 8 41.83 2.22 2.1598 0 3 5 4 41.84 2.52 2.1590 3 0 5 4 42.29 4.54 2.1373 0 4 2 4 42.31 4.87 2.1360 4 0 2 4 42.35 4.15 2.1341 1 4 1 8 42.38 4.14 2.1329 4 1 1 8 43.11 14.42 2.0985 1 3 5 8 43.12 14.53 2.0979 3 1 5 8 43.30 14.53 2.0894 2 3 4 8 43.31 14.02 2.0890 3 2 4 8 43.58 1.02 2.0768 4 1 2 8 44.81 3.24 2.0227 3 3 2 8 44.95 2.58 2.0166 2 2 6 8 45.69 23.16 1.9856 2 4 0 4 45.71 23.42 1.9848 4 2 0 4 46.07 1.04 1.9701 2 4 1 8 46.09 1.01 1.9693 4 2 1 8 46.95 1.08 1.9352 0 4 4 4 46.98 1.01 1.9342 4 0 4 4 47.20 1.06 1.9256 2 4 2 8 47.22 1.07 1.9249 4 2 2 8 48.13 1.25 1.8907 1 4 4 8 48.15 1.30 1.8899 4 1 4 8 51.35 3.13 1.7794 1 4 5 8 51.37 3.35 1.7787 4 1 5 8 51.52 2.73 1.7738 2 4 4 8 51.54 2.70 1.7733 4 2 4 8 51.72 3.30 1.7675 1 2 8 8 51.72 3.46 1.7673 2 1 8 8 51.80 1.86 1.7651 0 5 1 4 51.81 1.62 1.7646 3 4 1 8 51.82 1.80 1.7643 4 3 1 8 51.83 1.91 1.7639 5 0 1 4 52.00 11.45 1.7586 1 3 7 8 52.01 12.12 1.7583 3 1 7 8 52.84 1.69 1.7325 3 4 2 8 52.85 1.59 1.7322 4 3 2 8 52.89 2.38 1.7312 1 5 1 8 52.92 2.25 1.7301 5 1 1 8 53.22 1.15 1.7211 1 0 9 4 54.54 1.11 1.6826 3 4 3 8 54.55 1.17 1.6823 4 3 3 8 54.95 4.79 1.6709 2 2 8 8 55.10 2.16 1.6668 1 4 6 8 55.12 2.23 1.6662 4 1 6 8 55.58 1.64 1.6535 1 5 3 8 55.61 1.62 1.6526 5 1 3 8 56.07 6.83 1.6401 2 5 1 8 56.10 6.92 1.6393 5 2 1 8 57.03 1.61 1.6148 1 3 8 8 57.04 1.86 1.6145 3 1 8 8 57.06 1.93 1.6142 2 5 2 8 57.09 1.96 1.6134 5 2 2 8 57.87 1.97 1.5935 1 5 4 8 57.90 2.06 1.5926 5 1 4 8 58.20 2.19 1.5850 2 4 6 8 58.22 2.06 1.5846 4 2 6 8 58.45 11.74 1.5790 0 0 10 2 58.67 1.36 1.5736 2 5 3 8 58.70 1.46 1.5729 5 2 3 8 58.84 3.87 1.5694 4 4 0 4 60.07 7.63 1.5401 2 3 8 8 60.08 7.64 1.5400 3 2 8 8 60.11 1.87 1.5393 4 4 2 8 60.88 1.76 1.5216 2 5 4 8 60.91 1.80 1.5209 5 2 4 8 61.14 2.00 1.5158 3 5 1 8 61.16 1.99 1.5153 5 3 1 8 62.41 3.95 1.4879 1 3 9 8 62.42 3.72 1.4877 3 1 9 8 62.78 4.91 1.4802 0 6 0 2 62.82 4.91 1.4792 6 0 0 2 63.61 3.88 1.4628 3 5 3 8 63.63 3.86 1.4624 5 3 3 8 63.66 3.86 1.4617 2 5 5 8 63.69 4.03 1.4612 5 2 5 8 63.98 2.57 1.4552 1 4 8 8 64.00 2.58 1.4548 4 1 8 8 64.05 1.17 1.4538 1 6 1 8 64.09 1.03 1.4529 6 1 1 8 64.12 1.01 1.4524 1 5 6 8 64.96 1.03 1.4357 1 6 2 8 65.00 1.09 1.4348 6 1 2 8 66.26 2.92 1.4106 2 2 10 8 66.60 1.95 1.4041 2 6 0 4 66.64 1.93 1.4034 6 2 0 4 67.85 1.98 1.3813 4 5 1 8 67.86 1.99 1.3811 5 4 1 8 69.65 1.36 1.3500 1 2 11 8 69.65 1.28 1.3499 2 1 11 8 69.77 3.15 1.3479 4 4 6 8 71.14 1.45 1.3252 1 6 5 8 71.19 1.48 1.3245 6 1 5 8 71.73 1.50 1.3158 0 0 12 2 71.80 1.06 1.3147 2 4 9 8 71.81 1.05 1.3145 4 2 9 8 74.19 2.30 1.2782 1 3 11 8 74.20 2.23 1.2780 3 1 11 8 74.29 1.15 1.2767 1 6 6 8 74.33 1.08 1.2761 6 1 6 8 74.78 3.06 1.2696 4 5 5 8 74.79 3.08 1.2695 5 4 5 8 75.06 2.28 1.2655 2 5 8 8 75.09 2.18 1.2651 5 2 8 8 75.30 1.86 1.2621 3 5 7 8 75.32 1.93 1.2618 5 3 7 8 76.86 1.85 1.2403 1 7 2 8 76.89 2.72 1.2400 5 5 2 8 76.91 1.84 1.2396 7 1 2 8 77.19 3.97 1.2359 2 4 10 8 77.20 4.13 1.2357 4 2 10 8 77.37 1.45 1.2334 0 7 3 4 77.43 1.36 1.2326 7 0 3 4 78.64 1.10 1.2166 4 6 2 8 78.67 1.09 1.2163 6 4 2 8 79.51 1.48 1.2055 2 7 2 8 79.56 1.46 1.2049 7 2 2 8 80.39 1.04 1.1945 1 4 11 8 81.37 1.25 1.1826 3 6 6 8 81.40 1.21 1.1822 6 3 6 8 81.82 1.34 1.1773 0 7 5 4 81.87 1.31 1.1766 7 0 5 4 85.25 3.31 1.1384 3 7 3 8 85.30 3.34 1.1379 7 3 3 8 87.50 2.75 1.1148 1 3 13 8 87.51 2.67 1.1147 3 1 13 8 87.67 3.22 1.1131 4 4 10 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.