Adamite Diffraction data computed using the structure from the paper listed below, along with the cell parameters refined from the powder pattern for R060593 Hill R J American Mineralogist 61 (1976) 979-986 The crystal structure and infrared properties of adamite CELL PARAMETERS: 8.306000 8.524000 6.043000 90.00000 90.00000 90.00000 SPACE GROUP: Pnnm X-RAY WAVELENGTH: 1.541838 2-THETA INTENSITY D-SPACING H K L 14.83 63.66 5.9837 1 1 0 18.05 47.89 4.9198 0 1 1 18.16 58.44 4.8914 1 0 1 20.83 2.88 4.2680 0 2 0 20.95 45.42 4.2440 1 1 1 21.20 5.62 4.1952 2 0 0 23.40 20.54 3.8041 1 2 0 23.65 28.57 3.7650 2 1 0 29.69 21.83 3.0102 0 0 2 29.88 100.00 2.9919 2 2 0 33.33 58.84 2.6891 1 1 2 33.26 25.10 2.6946 1 3 0 33.45 16.87 2.6792 2 2 1 33.73 31.50 2.6578 3 1 0 34.88 15.20 2.5725 0 3 1 35.40 15.77 2.5365 3 0 1 36.53 58.09 2.4599 0 2 2 36.54 48.72 2.4595 1 3 1 36.75 29.84 2.4457 2 0 2 36.98 46.53 2.4314 3 1 1 38.29 21.54 2.3511 2 1 2 38.22 3.13 2.3548 2 3 0 38.49 1.51 2.3393 3 2 0 43.13 4.04 2.0976 4 0 0 45.16 5.05 2.0077 1 3 2 45.53 1.52 1.9923 3 1 2 45.47 1.19 1.9946 3 3 0 46.48 6.34 1.9535 0 1 3 46.53 3.31 1.9517 1 0 3 46.42 7.27 1.9560 1 4 1 47.09 5.62 1.9295 4 1 1 47.80 2.07 1.9026 1 1 3 48.05 8.36 1.8934 3 3 1 49.11 4.02 1.8547 2 3 2 49.33 1.94 1.8471 3 2 2 50.30 1.69 1.8137 2 4 1 52.56 4.49 1.7409 0 4 2 53.21 9.36 1.7210 4 0 2 54.87 5.52 1.6729 1 5 0 55.09 3.59 1.6666 2 2 3 55.23 20.87 1.6627 3 3 2 56.07 4.63 1.6399 0 3 3 55.82 5.77 1.6466 5 1 0 56.42 3.25 1.6305 3 0 3 56.33 6.38 1.6329 3 4 1 56.60 3.19 1.6257 4 3 1 57.22 15.11 1.6095 1 3 3 57.13 17.67 1.6118 1 5 1 57.28 36.52 1.6079 2 4 2 56.95 1.10 1.6165 5 0 1 57.53 9.62 1.6015 3 1 3 57.75 21.41 1.5961 4 2 2 58.34 3.31 1.5813 2 5 0 58.06 21.44 1.5882 5 1 1 59.14 1.35 1.5617 5 2 0 61.60 18.56 1.5051 0 0 4 62.02 21.23 1.4959 4 4 0 63.74 1.74 1.4596 1 1 4 63.61 1.78 1.4623 1 5 2 64.70 2.47 1.4402 1 4 3 64.48 2.78 1.4446 5 1 2 66.02 3.84 1.4147 3 3 3 65.93 1.57 1.4163 3 5 1 66.82 1.36 1.3995 1 2 4 66.93 2.48 1.3976 2 1 4 66.66 1.75 1.4026 1 6 0 66.81 5.26 1.3999 2 5 2 66.50 1.11 1.4055 5 3 1 67.55 5.57 1.3862 5 2 2 67.90 1.24 1.3800 6 1 0 69.94 14.11 1.3445 2 2 4 69.78 5.53 1.3473 2 6 0 70.24 8.76 1.3396 4 4 2 71.81 4.67 1.3140 1 3 4 70.89 6.28 1.3289 6 2 0 71.77 1.49 1.3148 2 6 1 72.09 5.72 1.3097 3 1 4 71.97 5.03 1.3116 3 5 2 72.52 2.73 1.3030 5 3 2 73.00 1.85 1.2956 3 4 3 73.16 1.21 1.2932 4 5 1 73.61 4.21 1.2862 0 6 2 73.70 9.76 1.2850 1 5 3 73.46 1.01 1.2885 5 4 1 74.51 8.10 1.2729 5 1 3 74.84 4.21 1.2682 6 0 2 78.12 1.11 1.2229 4 0 4 81.51 1.33 1.1804 1 1 5 81.27 1.62 1.1832 1 7 1 81.61 1.40 1.1791 3 5 3 82.86 1.56 1.1646 7 1 1 87.05 2.28 1.1189 1 5 4 87.23 1.13 1.1170 2 2 5 86.93 2.78 1.1201 1 7 2 87.16 1.86 1.1178 3 7 0 87.83 2.34 1.1109 5 1 4 87.72 1.80 1.1121 5 5 2 89.00 2.99 1.0993 1 3 5 89.26 4.03 1.0968 3 1 5 89.03 2.42 1.0990 3 7 1 88.50 3.16 1.1042 7 1 2 88.46 2.96 1.1046 7 3 0 89.29 9.34 1.0965 4 6 2 89.95 1.60 1.0902 2 5 4 89.95 1.60 1.0902 2 5 4 XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.