Ellenbergerite Comodi P, Zanazzi P F European Journal of Mineralogy 5 (1993) 819-829 Structural study of ellenbergerite. Part 1: Effects of high temperature Sample: II, T = 668 C _database_code_amcsd 0006487 CELL PARAMETERS: 12.3184 12.3184 4.9674 90.000 90.000 120.000 SPACE GROUP: P6_3 X-RAY WAVELENGTH: 1.541838 Cell Volume: 652.782 Density (g/cm3): 2.979 MAX. ABS. INTENSITY / VOLUME**2: 7.604217260 RIR: 0.831 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.29 2.43 10.6680 1 0 0 6 14.38 20.26 6.1592 1 1 0 6 16.62 2.50 5.3340 2 0 0 6 19.71 28.94 4.5032 1 0 1 6 22.04 2.96 4.0321 1 2 0 6 22.04 10.94 4.0321 2 1 0 6 23.00 2.16 3.8666 1 1 1 6 24.49 50.67 3.6352 2 0 1 6 25.04 41.06 3.5560 3 0 0 6 28.51 41.07 3.1306 2 1 1 6 28.51 58.93 3.1306 1 2 1 6 28.99 51.76 3.0796 2 2 0 6 30.21 1.69 2.9588 3 1 0 6 30.93 5.64 2.8915 3 0 1 6 33.60 29.59 2.6670 4 0 0 6 35.31 5.21 2.5420 1 3 1 6 35.31 6.69 2.5420 3 1 1 6 36.17 8.14 2.4837 0 0 2 1 36.72 1.38 2.4474 3 2 0 6 37.17 4.38 2.4190 1 0 2 6 38.31 35.60 2.3498 4 0 1 6 38.68 2.59 2.3280 4 1 0 6 39.11 20.07 2.3035 1 1 2 6 40.05 3.01 2.2516 2 0 2 6 41.12 25.50 2.1954 2 3 1 6 41.12 15.15 2.1954 3 2 1 6 42.76 9.68 2.1147 1 2 2 6 42.76 7.22 2.1147 2 1 2 6 42.90 5.49 2.1080 1 4 1 6 44.49 7.04 2.0362 3 0 2 6 44.96 2.43 2.0161 2 4 0 6 46.31 7.48 1.9604 5 0 1 6 47.00 5.59 1.9333 2 2 2 6 47.81 2.14 1.9023 3 1 2 6 48.75 3.48 1.8681 2 4 1 6 48.75 5.31 1.8681 4 2 1 6 50.19 23.80 1.8176 4 0 2 6 51.09 10.92 1.7877 1 5 1 6 51.09 8.17 1.7877 5 1 1 6 51.39 2.31 1.7780 6 0 0 6 52.49 6.28 1.7433 3 2 2 6 52.49 6.74 1.7433 2 3 2 6 54.84 3.79 1.6740 6 0 1 6 55.57 2.60 1.6538 3 4 1 6 55.57 2.62 1.6538 4 3 1 6 56.57 2.60 1.6269 1 6 0 6 56.57 2.24 1.6269 6 1 0 6 56.89 1.77 1.6184 5 0 2 6 57.01 4.65 1.6154 2 5 1 6 57.01 6.15 1.6154 5 2 1 6 58.31 8.24 1.5824 3 3 2 6 59.01 2.68 1.5653 4 2 2 6 59.01 1.53 1.5653 2 4 2 6 59.82 4.24 1.5461 1 6 1 6 59.82 1.00 1.5461 6 1 1 6 60.09 23.61 1.5398 4 4 0 6 60.44 9.11 1.5317 1 2 3 6 60.44 7.92 1.5317 2 1 3 6 61.08 3.15 1.5171 1 5 2 6 61.08 1.29 1.5171 5 1 2 6 63.89 1.70 1.4570 3 5 1 6 63.89 2.42 1.4570 5 3 1 6 63.89 1.08 1.4570 7 0 1 6 64.45 1.05 1.4457 6 0 2 6 64.49 1.39 1.4449 3 1 3 6 65.11 2.29 1.4326 3 4 2 6 65.11 1.10 1.4326 4 3 2 6 65.88 1.03 1.4178 6 2 1 6 66.13 5.11 1.4130 7 1 0 6 66.13 1.25 1.4130 1 7 0 6 66.42 3.56 1.4075 2 5 2 6 66.42 5.18 1.4075 5 2 2 6 66.46 17.56 1.4067 4 0 3 6 68.41 3.54 1.3714 2 3 3 6 68.41 2.46 1.3714 3 2 3 6 69.01 2.10 1.3609 1 6 2 6 70.64 2.26 1.3335 8 0 0 6 72.18 10.21 1.3087 4 4 2 6 72.22 2.66 1.3081 5 0 3 6 72.91 1.53 1.2974 3 6 1 6 72.91 2.33 1.2974 6 3 1 6 73.54 6.69 1.2879 8 0 1 6 75.40 2.85 1.2606 7 2 1 6 75.40 4.64 1.2606 2 7 1 6 75.95 2.39 1.2528 1 5 3 6 75.95 2.48 1.2528 5 1 3 6 76.75 1.86 1.2419 0 0 4 1 77.49 1.06 1.2318 5 5 0 6 79.08 1.39 1.2109 8 1 1 6 81.02 1.21 1.1868 2 1 4 6 81.41 1.67 1.1821 3 6 2 6 81.41 1.51 1.1821 6 3 2 6 82.02 1.71 1.1749 8 0 2 6 83.83 2.28 1.1541 2 7 2 6 83.83 1.37 1.1541 7 2 2 6 86.44 1.59 1.1258 4 0 4 6 88.23 1.81 1.1074 2 3 4 6 89.43 1.03 1.0957 4 1 4 6 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.