Gatehouseite Elliott P, Pring A Mineralogical Magazine 75 (2011) 2823-2832 The crystal structure of gatehouseite Locality: Iron Monarch quarry, Iron Knob, South Australia, Australia _database_code_amcsd 0018567 CELL PARAMETERS: 17.9733 5.6916 9.1300 90.000 90.000 90.000 SPACE GROUP: P2_12_12_1 X-RAY WAVELENGTH: 1.541838 Cell Volume: 933.970 Density (g/cm3): 3.803 MAX. ABS. INTENSITY / VOLUME**2: 13.79983226 RIR: 1.182 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.87 1.12 8.1400 1 0 1 4 17.71 2.90 5.0090 3 0 1 4 18.37 3.26 4.8299 0 1 1 4 19.03 6.39 4.6645 1 1 1 4 19.76 16.07 4.4933 4 0 0 2 20.07 15.88 4.4245 1 0 2 4 20.88 3.97 4.2544 2 1 1 4 21.84 9.83 4.0700 2 0 2 4 22.05 14.01 4.0315 4 0 1 4 23.66 1.93 3.7602 3 1 1 4 24.52 2.24 3.6310 3 0 2 4 25.25 13.61 3.5267 4 1 0 4 25.50 7.39 3.4932 1 1 2 4 26.65 10.04 3.3448 5 0 1 4 29.17 5.98 3.0611 3 1 2 4 29.39 16.21 3.0393 5 1 0 4 29.77 44.84 3.0006 1 0 3 4 31.01 100.00 2.8837 5 1 1 4 31.02 35.92 2.8825 2 0 3 4 31.68 8.42 2.8242 5 0 2 4 31.84 3.75 2.8108 1 2 0 4 32.07 78.47 2.7909 4 1 2 4 33.02 4.89 2.7130 2 2 0 4 33.35 65.33 2.6864 1 2 1 4 33.39 6.66 2.6838 0 1 3 4 33.77 5.14 2.6543 1 1 3 4 34.49 3.43 2.6006 2 2 1 4 34.90 7.66 2.5705 3 2 0 4 35.26 4.53 2.5457 6 1 1 4 35.48 6.65 2.5299 5 1 2 4 35.63 3.79 2.5198 4 0 3 4 35.86 3.87 2.5045 6 0 2 4 36.69 7.93 2.4492 3 1 3 4 37.58 12.72 2.3935 1 2 2 4 38.60 11.63 2.3322 2 2 2 4 38.73 3.92 2.3249 4 2 1 4 39.10 1.23 2.3041 4 1 3 4 39.30 2.51 2.2924 6 1 2 4 39.48 5.20 2.2825 0 0 4 2 39.76 11.45 2.2672 7 1 1 4 40.26 4.15 2.2398 3 2 2 4 40.43 1.41 2.2312 5 2 0 4 41.67 3.52 2.1674 5 2 1 4 42.01 2.04 2.1505 5 1 3 4 42.99 7.66 2.1039 1 1 4 4 43.30 1.18 2.0897 8 1 0 4 43.45 3.37 2.0827 7 1 2 4 43.54 6.56 2.0786 0 2 3 4 43.85 1.78 2.0648 1 2 3 4 43.88 6.33 2.0632 6 2 0 4 43.91 3.44 2.0620 2 1 4 4 44.47 2.11 2.0371 8 1 1 4 44.52 1.33 2.0350 4 0 4 4 44.75 5.55 2.0251 2 2 3 4 45.23 1.70 2.0046 5 2 2 4 45.37 14.89 1.9989 6 1 3 4 45.41 3.85 1.9973 3 1 4 4 46.23 1.59 1.9638 3 2 3 4 46.55 9.09 1.9509 9 0 1 4 47.45 5.70 1.9162 4 1 4 4 47.87 2.76 1.9001 8 1 2 4 48.24 2.35 1.8865 4 2 3 4 48.30 2.64 1.8844 9 1 0 4 48.80 2.62 1.8661 7 2 1 4 49.08 1.56 1.8563 2 3 0 4 49.11 1.99 1.8553 7 1 3 4 49.38 6.51 1.8455 9 1 1 4 49.84 1.54 1.8296 9 0 2 4 49.97 7.00 1.8251 5 1 4 4 50.15 1.12 1.8191 2 3 1 4 50.22 1.46 1.8166 1 0 5 4 50.74 2.28 1.7994 5 2 3 4 51.04 1.42 1.7894 2 0 5 4 51.31 9.92 1.7805 0 2 4 4 51.51 9.31 1.7742 3 3 1 4 51.58 3.68 1.7719 1 2 4 4 51.85 10.66 1.7635 10 0 1 4 51.85 1.91 1.7634 8 2 0 4 52.21 1.10 1.7519 0 3 2 4 52.38 4.17 1.7466 2 2 4 4 52.48 1.58 1.7437 1 3 2 4 52.54 1.16 1.7418 9 1 2 4 52.94 6.18 1.7297 6 1 4 4 53.37 7.33 1.7166 4 3 1 4 53.46 1.44 1.7139 10 1 0 4 53.67 1.82 1.7077 6 2 3 4 53.69 1.58 1.7071 2 1 5 4 53.70 4.80 1.7068 3 2 4 4 54.47 1.32 1.6845 10 1 1 4 54.71 4.38 1.6779 5 3 0 4 54.90 1.32 1.6724 10 0 2 4 54.99 13.35 1.6698 3 1 5 4 55.70 2.11 1.6502 5 3 1 4 56.28 1.46 1.6347 9 2 0 4 56.30 7.06 1.6341 7 1 4 4 56.37 3.93 1.6322 4 3 2 4 56.77 1.24 1.6215 4 1 5 4 57.00 7.30 1.6156 7 2 3 4 57.22 1.59 1.6100 0 3 3 4 57.25 1.81 1.6091 9 2 1 4 57.28 1.52 1.6084 11 0 1 4 57.43 4.11 1.6045 10 1 2 4 57.50 20.33 1.6028 6 3 0 4 57.53 3.32 1.6021 9 1 3 4 57.56 9.53 1.6012 8 0 4 4 57.79 3.48 1.5955 5 2 4 4 58.22 1.42 1.5848 2 3 3 4 58.46 1.88 1.5786 6 3 1 4 58.62 2.26 1.5748 5 3 2 4 59.27 1.04 1.5592 6 0 5 4 59.75 2.80 1.5478 11 1 1 4 60.12 3.25 1.5390 9 2 2 4 60.22 2.78 1.5368 0 2 5 4 60.49 4.21 1.5306 6 2 4 4 60.69 2.45 1.5259 7 3 0 4 61.12 2.59 1.5162 1 0 6 4 61.15 1.95 1.5156 4 3 3 4 61.18 2.50 1.5148 2 2 5 4 61.68 8.47 1.5038 6 1 5 4 61.84 2.62 1.5003 2 0 6 4 61.90 1.32 1.4990 10 2 1 4 61.96 3.65 1.4978 12 0 0 2 62.38 2.99 1.4886 3 2 5 4 63.29 5.06 1.4693 5 3 3 4 63.59 1.14 1.4632 7 2 4 4 64.20 3.01 1.4508 2 1 6 4 64.31 1.30 1.4485 12 1 0 4 64.64 3.61 1.4418 10 2 2 4 64.73 5.30 1.4401 2 3 4 4 64.73 2.26 1.4401 9 2 3 4 64.76 1.24 1.4396 11 0 3 4 65.86 1.09 1.4181 6 3 3 4 65.92 1.40 1.4170 11 2 0 4 66.12 1.04 1.4131 5 2 5 4 66.51 4.07 1.4059 0 4 1 4 66.74 3.25 1.4016 1 4 1 4 66.81 3.00 1.4002 11 2 1 4 66.98 1.80 1.3972 4 1 6 4 67.06 2.31 1.3956 11 1 3 4 67.42 1.75 1.3890 2 4 1 4 68.83 1.20 1.3640 7 3 3 4 69.45 2.11 1.3533 11 2 2 4 70.05 3.02 1.3432 2 4 2 4 71.49 1.01 1.3197 6 1 6 4 71.74 1.30 1.3156 0 3 5 4 71.96 1.06 1.3121 1 3 5 4 72.19 1.06 1.3087 8 3 3 4 73.76 1.05 1.2846 11 2 3 4 74.36 1.43 1.2757 7 1 6 4 76.83 1.40 1.2407 14 1 1 4 77.69 1.12 1.2291 13 1 3 4 78.15 1.21 1.2230 12 1 4 4 78.54 2.42 1.2179 9 2 5 4 79.57 3.32 1.2048 1 4 4 4 80.06 1.10 1.1986 5 1 7 4 81.32 1.32 1.1831 1 2 7 4 82.60 1.37 1.1681 10 2 5 4 83.04 1.74 1.1630 15 1 1 4 83.05 1.01 1.1629 7 0 7 4 84.08 1.01 1.1512 13 2 3 4 84.40 2.64 1.1477 4 3 6 4 84.54 1.25 1.1462 12 2 4 4 84.99 1.71 1.1413 0 0 8 2 85.25 1.76 1.1384 12 3 2 4 85.78 1.58 1.1328 10 3 4 4 87.60 1.54 1.1138 9 2 6 4 89.45 1.03 1.0955 4 5 1 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.