Sailaufite Wildner M, Tillmanns E, Andrut M, Lorenz J European Journal of Mineralogy 15 (2003) 555-564 Sailaufite, (Ca,Na,_)2Mn3O2(AsO4)2(CO3)*3H2O, a new mineral from Hartkoppe hill, Ober-Sailauf (Spessart mountains, Germany), and its relationship to mitridatite-group minerals and pararobertsite Locality: Hartkoppe hill, Ober-Sailauf, Spessart mountains, Germany _database_code_amcsd 0007000 CELL PARAMETERS: 11.2530 19.6280 8.9320 90.000 100.050 90.000 SPACE GROUP: Cm X-RAY WAVELENGTH: 1.541838 Cell Volume: 1942.574 Density (g/cm3): 3.355 MAX. ABS. INTENSITY / VOLUME**2: 16.12277073 RIR: 1.565 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.06 100.00 8.7949 0 0 1 1 12.55 1.63 7.0557 -1 1 1 2 13.52 2.14 6.5497 0 2 1 2 14.62 1.26 6.0578 1 1 1 2 15.73 78.07 5.6338 1 3 0 2 16.00 64.78 5.5402 2 0 0 1 17.93 52.21 4.9475 -1 3 1 2 19.45 28.77 4.5636 1 3 1 2 20.19 4.51 4.3975 0 0 2 1 20.38 3.67 4.3573 2 0 1 1 23.53 11.18 3.7805 -2 0 2 1 24.55 8.77 3.6261 -1 3 2 2 26.68 1.28 3.3418 1 5 1 2 27.26 19.21 3.2713 0 6 0 2 27.37 1.48 3.2581 2 4 1 2 27.74 14.73 3.2163 3 3 0 2 28.02 7.71 3.1844 2 0 2 1 28.05 7.42 3.1806 -3 3 1 2 28.16 3.47 3.1690 3 1 1 2 29.09 3.48 3.0697 -3 1 2 2 29.12 6.52 3.0661 0 6 1 2 29.83 2.77 2.9948 -2 4 2 2 30.49 36.31 2.9316 0 0 3 1 30.66 2.44 2.9162 -1 5 2 2 31.02 35.56 2.8827 3 3 1 2 31.77 2.66 2.8169 2 6 0 2 31.88 33.01 2.8073 -3 3 2 2 31.95 7.34 2.8012 -2 0 3 1 32.14 2.00 2.7851 -4 0 1 1 32.32 21.05 2.7701 4 0 0 1 32.50 59.56 2.7546 -2 6 1 2 33.17 3.25 2.7006 -1 3 3 2 33.31 1.50 2.6900 3 5 0 2 34.10 1.50 2.6290 -1 7 1 2 34.16 16.54 2.6247 0 6 2 2 34.28 20.87 2.6161 2 6 1 2 35.15 10.50 2.5534 -4 0 2 1 35.64 7.46 2.5192 4 0 1 1 35.76 22.28 2.5110 1 3 3 2 36.14 1.34 2.4855 3 5 1 2 36.32 9.31 2.4738 -2 6 2 2 39.49 6.08 2.2818 2 6 2 2 40.20 2.47 2.2434 2 8 0 2 40.39 3.06 2.2333 3 7 0 2 40.47 1.31 2.2292 -5 1 1 2 40.72 2.65 2.2157 -4 0 3 1 40.99 1.64 2.2021 5 1 0 2 41.05 27.28 2.1987 0 0 4 1 41.36 8.77 2.1832 0 6 3 2 41.46 3.98 2.1781 -2 0 4 1 42.23 9.11 2.1398 1 9 0 2 42.60 6.18 2.1223 -5 3 1 2 42.63 9.24 2.1206 -4 6 1 2 42.78 4.00 2.1140 4 6 0 2 42.80 1.48 2.1127 -1 3 4 2 43.10 7.95 2.0989 5 3 0 2 43.17 4.24 2.0955 -1 9 1 2 44.89 4.68 2.0193 3 3 3 2 46.34 4.64 1.9591 -3 3 4 2 46.66 8.31 1.9467 2 6 3 2 47.05 1.67 1.9314 2 0 4 1 48.14 3.76 1.8903 -4 0 4 1 48.47 2.02 1.8779 3 9 0 2 48.57 1.44 1.8743 -6 0 1 1 49.02 1.20 1.8582 -5 3 3 2 49.35 1.49 1.8467 6 0 0 1 49.51 1.41 1.8410 -6 2 1 2 50.32 3.09 1.8133 4 6 2 2 50.59 5.71 1.8041 3 9 1 2 51.17 11.69 1.7852 -3 9 2 2 51.67 1.19 1.7691 -4 8 2 2 51.71 1.13 1.7679 -2 0 5 1 51.90 2.23 1.7617 1 11 0 2 52.21 1.68 1.7519 -5 7 1 2 52.25 2.87 1.7509 -6 4 1 2 52.37 3.52 1.7470 6 0 1 1 52.53 1.01 1.7420 -2 10 2 2 53.15 1.56 1.7231 -1 3 5 2 53.26 1.05 1.7200 6 2 1 2 53.55 1.06 1.7114 -5 1 4 2 53.86 1.11 1.7022 -6 0 3 1 53.89 5.27 1.7013 1 9 3 2 53.97 1.90 1.6988 3 3 4 2 55.23 1.31 1.6631 2 6 4 2 55.29 4.66 1.6616 -5 3 4 2 55.61 3.01 1.6526 -3 3 5 2 56.14 1.95 1.6382 1 3 5 2 56.20 1.14 1.6367 -4 6 4 2 56.24 13.84 1.6357 0 12 0 2 56.59 22.92 1.6263 -6 6 1 2 57.00 3.14 1.6156 4 6 3 2 57.29 2.75 1.6082 6 6 0 2 57.92 8.33 1.5922 4 0 4 1 58.13 2.24 1.5870 5 3 3 2 58.87 2.77 1.5687 2 12 0 2 59.18 2.14 1.5611 -7 3 1 2 59.23 2.23 1.5600 -1 9 4 2 59.43 17.47 1.5553 -2 6 5 2 59.47 2.54 1.5544 5 9 0 2 59.68 4.51 1.5492 0 6 5 2 62.04 1.80 1.4960 1 13 0 2 62.08 1.75 1.4950 -3 9 4 2 62.34 1.90 1.4894 -6 8 1 2 62.43 1.92 1.4876 -7 5 1 2 63.46 2.41 1.4658 0 0 6 1 64.08 2.66 1.4531 3 3 5 2 64.21 2.31 1.4504 -4 6 5 2 64.22 1.09 1.4503 -1 3 6 2 64.67 3.76 1.4413 6 6 2 2 64.95 6.13 1.4359 2 6 5 2 65.33 4.72 1.4284 0 12 3 2 65.89 1.56 1.4176 -3 3 6 2 66.16 2.22 1.4125 -2 12 3 2 66.37 2.60 1.4085 4 12 0 2 66.47 1.15 1.4065 5 3 4 2 66.63 5.53 1.4036 -6 6 4 2 66.79 2.99 1.4006 -4 0 6 1 67.23 1.78 1.3925 -8 0 2 1 67.43 3.09 1.3889 1 3 6 2 67.87 2.57 1.3810 7 3 2 2 68.07 1.97 1.3773 -4 12 2 2 68.38 2.19 1.3719 4 12 1 2 68.53 1.07 1.3692 3 9 4 2 69.68 2.59 1.3495 -5 9 4 2 69.96 2.05 1.3447 -3 9 5 2 71.01 4.90 1.3275 6 6 3 2 71.72 1.28 1.3159 -4 12 3 2 71.95 4.36 1.3124 0 12 4 2 72.34 1.34 1.3063 6 0 4 1 73.26 1.34 1.2921 -8 6 1 2 73.50 2.85 1.2884 -6 6 5 2 74.46 1.01 1.2742 -2 0 7 1 75.43 1.05 1.2602 -6 0 6 1 75.70 1.07 1.2564 0 0 7 1 75.76 2.12 1.2555 2 6 6 2 77.80 1.00 1.2276 -4 0 7 1 79.02 1.46 1.2118 3 15 1 2 79.26 1.70 1.2087 -3 9 6 2 79.47 1.04 1.2060 -3 15 2 2 80.43 1.03 1.1940 6 12 1 2 80.52 1.18 1.1929 -9 3 3 2 80.70 2.32 1.1907 1 9 6 2 80.81 1.04 1.1893 -8 6 4 2 81.10 1.16 1.1858 7 9 2 2 81.66 1.34 1.1791 1 15 3 2 82.75 2.33 1.1663 -5 3 7 2 85.02 3.36 1.1409 4 12 4 2 85.49 2.25 1.1358 4 6 6 2 88.19 1.41 1.1078 -8 0 6 1 89.86 1.01 1.0916 0 12 6 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.