Antigorite Capitani G C, Mellini M American Mineralogist 91 (2006) 394-399 The crystal structure of a second antigorite polysome (m = 16), by single-crystal synchrotron diffraction _database_code_amcsd 0004123 CELL PARAMETERS: 81.6640 9.2550 7.2610 90.000 91.409 90.000 SPACE GROUP: C2/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 5486.207 Density (g/cm3): 2.578 MAX. ABS. INTENSITY / VOLUME**2: 8.104312822 RIR: 1.024 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 12.19 73.65 7.2588 0 0 1 2 12.33 9.76 7.1772 -2 0 1 2 12.44 10.86 7.1166 2 0 1 2 12.84 1.18 6.8929 -4 0 1 2 13.67 1.07 6.4783 9 1 0 4 13.68 2.51 6.4709 -6 0 1 2 13.97 3.21 6.3400 6 0 1 2 17.06 4.49 5.1966 13 1 0 4 18.92 12.43 4.6915 15 1 0 4 19.18 18.54 4.6275 0 2 0 2 20.84 13.74 4.2626 17 1 0 4 21.23 3.48 4.1853 13 1 1 4 22.34 20.57 3.9788 -15 1 1 4 22.79 1.29 3.9027 15 1 1 4 22.79 8.65 3.9020 0 2 1 4 22.87 6.15 3.8892 -2 2 1 4 22.92 5.43 3.8795 2 2 1 4 24.45 11.61 3.6412 17 1 1 4 24.57 28.97 3.6230 -2 0 2 2 24.68 25.56 3.6073 2 0 2 2 24.81 3.39 3.5886 -4 0 2 2 25.03 3.13 3.5583 4 0 2 2 25.24 2.41 3.5285 -6 0 2 2 25.56 2.98 3.4855 6 0 2 2 29.74 1.36 3.0044 -13 1 2 4 30.83 1.91 2.9006 -15 1 2 4 31.36 2.43 2.8527 -2 2 2 4 31.44 2.02 2.8450 2 2 2 4 31.48 5.58 2.8417 15 1 2 4 32.04 3.28 2.7937 -17 1 2 4 34.54 4.40 2.5965 -13 3 1 4 34.56 2.28 2.5956 17 3 0 4 34.93 3.50 2.5690 -30 0 1 2 35.18 3.07 2.5512 32 0 0 2 35.51 35.41 2.5278 30 0 1 2 35.52 64.59 2.5273 -15 3 1 4 35.81 5.10 2.5074 15 3 1 4 36.61 9.77 2.4544 -17 3 1 4 36.93 1.41 2.4338 17 3 1 4 37.16 2.56 2.4196 0 0 3 2 37.66 2.82 2.3886 32 0 1 2 40.14 3.68 2.2462 28 0 2 2 40.77 5.62 2.2130 -13 3 2 4 40.94 1.11 2.2045 0 4 1 4 41.61 24.28 2.1705 -15 3 2 4 41.98 11.13 2.1520 30 0 2 2 42.12 3.51 2.1455 15 3 2 4 42.14 1.14 2.1442 0 2 3 4 42.55 2.14 2.1246 -17 3 2 4 42.82 1.21 2.1117 -32 0 2 2 43.12 1.34 2.0981 17 3 2 4 46.55 1.07 1.9510 0 4 2 4 47.32 1.15 1.9212 -32 2 2 4 49.17 1.78 1.8528 -11 3 3 4 49.54 3.09 1.8399 28 0 3 2 49.78 5.61 1.8319 -13 3 3 4 50.28 1.34 1.8147 0 0 4 2 51.28 9.52 1.7817 -17 3 3 4 52.17 2.43 1.7533 -19 3 3 4 52.78 5.06 1.7344 32 0 3 2 53.46 1.35 1.7139 32 4 0 4 53.71 1.24 1.7066 -15 5 1 4 58.19 1.26 1.5853 -43 3 1 4 59.07 17.35 1.5638 45 3 0 4 59.97 10.18 1.5425 0 6 0 2 60.20 1.29 1.5371 -11 3 4 4 60.27 6.24 1.5355 -45 3 1 4 60.71 2.50 1.5254 -13 3 4 4 60.77 1.79 1.5240 11 3 4 4 60.78 1.53 1.5239 28 0 4 2 60.86 3.77 1.5221 45 3 1 4 61.39 3.05 1.5103 13 3 4 4 61.45 4.16 1.5088 0 6 1 4 62.01 2.35 1.4966 -17 3 4 4 62.03 2.04 1.4962 -32 0 4 2 62.88 3.71 1.4781 17 3 4 4 63.49 1.42 1.4652 -34 0 4 2 63.75 2.14 1.4599 19 3 4 4 67.56 1.18 1.3865 47 3 2 4 70.04 1.65 1.3434 -60 0 1 2 71.47 2.11 1.3200 32 6 0 4 71.68 6.99 1.3167 30 6 1 4 72.64 1.12 1.3016 -32 6 1 4 73.49 1.28 1.2886 11 3 5 4 73.77 1.05 1.2845 -60 0 2 2 74.06 2.22 1.2801 13 3 5 4 74.38 1.09 1.2753 -32 0 5 2 75.19 1.13 1.2636 -30 6 2 4 75.45 1.32 1.2599 17 3 5 4 81.41 1.29 1.1820 28 6 3 4 83.96 2.03 1.1526 32 6 3 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.