Krieselite Wunder B, Marler B European Journal of Mineralogy 9 (1997) 1147-1158 Ge-analogues of aluminium silicates: High-pressure synthesis and properties of orthorhombic Al2GeO4(OH)2 Note: Space group setting altered to match standard Locality: synthetic _database_code_amcsd 0006702 CELL PARAMETERS: 4.8040 9.1070 8.5510 90.000 90.000 90.000 SPACE GROUP: Pbnm X-RAY WAVELENGTH: 1.541838 Cell Volume: 374.106 Density (g/cm3): 3.952 MAX. ABS. INTENSITY / VOLUME**2: 20.40623082 RIR: 1.681 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 19.49 23.93 4.5535 0 2 0 2 20.78 14.01 4.2755 0 0 2 2 20.91 7.87 4.2491 1 1 0 4 21.21 12.67 4.1883 1 0 1 4 22.12 6.26 4.0192 0 2 1 4 23.38 55.54 3.8052 1 1 1 8 26.98 46.45 3.3048 1 2 0 4 28.64 33.28 3.1169 0 2 2 4 28.97 18.71 3.0826 1 2 1 8 29.64 100.00 3.0138 1 1 2 8 34.30 3.47 2.6148 1 2 2 8 34.96 15.20 2.5662 1 3 0 4 36.56 36.00 2.4579 1 3 1 8 36.66 9.26 2.4513 1 0 3 4 37.22 40.48 2.4160 0 2 3 4 37.44 1.89 2.4020 2 0 0 2 38.01 7.66 2.3671 1 1 3 8 38.77 3.37 2.3226 2 1 0 4 39.58 2.86 2.2768 0 4 0 2 40.24 31.26 2.2414 2 1 1 8 41.02 16.90 2.2001 0 4 1 4 41.85 9.25 2.1584 1 2 3 8 42.28 6.38 2.1377 0 0 4 2 42.55 6.86 2.1245 2 2 0 4 44.01 6.23 2.0574 1 4 0 4 44.39 7.71 2.0409 2 1 2 8 45.12 1.01 2.0096 0 4 2 4 45.34 1.48 2.0003 1 4 1 8 46.95 3.60 1.9351 0 2 4 4 47.62 22.92 1.9097 1 1 4 8 47.81 1.44 1.9026 2 2 2 8 49.14 11.12 1.8539 1 4 2 8 50.70 5.61 1.8005 2 1 3 8 50.87 1.59 1.7950 1 2 4 8 51.36 4.16 1.7789 0 4 3 4 53.13 23.50 1.7238 2 3 2 8 53.82 5.94 1.7034 2 2 3 8 54.97 4.37 1.6703 1 5 1 8 55.05 5.46 1.6682 1 4 3 8 55.62 1.25 1.6524 2 4 0 4 56.74 3.49 1.6224 2 4 1 8 58.15 2.73 1.5865 1 1 5 8 58.32 2.25 1.5822 1 5 2 8 58.65 2.83 1.5740 3 0 1 4 58.70 5.23 1.5729 2 1 4 8 58.76 12.13 1.5715 2 3 3 8 61.00 2.89 1.5189 1 2 5 8 61.37 8.81 1.5106 3 2 0 4 62.11 3.93 1.4945 0 6 1 4 62.43 5.13 1.4876 3 2 1 8 62.67 4.70 1.4824 1 4 4 8 62.80 1.76 1.4797 3 1 2 8 63.65 26.72 1.4620 1 5 3 8 64.17 15.72 1.4513 2 5 0 4 65.20 3.19 1.4309 2 5 1 8 65.23 2.98 1.4304 0 6 2 4 65.27 1.77 1.4296 2 4 3 8 65.49 14.56 1.4252 0 0 6 2 65.60 9.24 1.4231 1 3 5 8 66.11 7.23 1.4133 2 3 4 8 67.04 25.10 1.3961 3 0 3 4 68.08 7.44 1.3771 2 1 5 8 68.24 1.93 1.3743 2 5 2 8 68.44 3.76 1.3709 1 6 2 8 68.64 3.73 1.3674 0 4 5 4 69.06 1.73 1.3601 0 2 6 4 70.56 2.02 1.3348 3 2 3 8 72.11 1.50 1.3098 3 4 0 4 72.18 4.48 1.3087 1 2 6 8 73.37 4.27 1.2905 1 6 3 8 73.86 1.70 1.2831 2 6 0 4 74.82 1.33 1.2689 2 6 1 8 75.74 4.93 1.2558 1 7 0 4 75.99 5.13 1.2524 3 4 2 8 76.45 2.87 1.2459 1 3 6 8 77.06 2.56 1.2376 0 6 4 4 79.87 1.34 1.2010 4 0 0 2 79.89 2.67 1.2008 2 5 4 8 80.07 1.99 1.1985 1 6 4 8 80.89 1.12 1.1883 2 4 5 8 81.64 4.28 1.1793 4 1 1 8 82.09 1.87 1.1740 1 1 7 8 82.30 1.56 1.1715 1 4 6 8 85.55 1.84 1.1352 0 6 5 4 85.67 1.44 1.1339 2 7 1 8 85.83 2.97 1.1322 3 2 5 8 86.93 1.53 1.1207 4 2 2 8 87.30 3.35 1.1168 3 4 4 8 88.32 1.45 1.1066 2 5 5 8 88.68 1.47 1.1030 1 3 7 8 88.98 4.07 1.1001 0 8 2 4 89.14 1.25 1.0985 1 8 1 8 89.76 2.43 1.0926 3 6 1 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.