Atacamite Zheng X G, Mori T, Nishiyama K, Higemoto W, Yamada H, Nishikubo K, Xu C N Physical Review B - Condensed Matter 71 (2005) 174404-8 Antiferromagnetic transitions in polymorphous minerals of the natural cuprates atacamite and botallackite Cu2Cl(OH)3 Locality: synthetic _database_code_amcsd 0019936 CELL PARAMETERS: 6.0280 6.8638 9.1156 90.000 90.000 90.000 SPACE GROUP: Pnma X-RAY WAVELENGTH: 1.541838 Cell Volume: 377.158 Density (g/cm3): 3.761 MAX. ABS. INTENSITY / VOLUME**2: 30.33192851 RIR: 2.626 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 16.16 100.00 5.4832 0 1 1 4 17.64 70.52 5.0280 1 0 1 4 19.48 1.87 4.5578 0 0 2 2 21.91 6.69 4.0562 1 1 1 8 25.96 3.18 3.4319 0 2 0 2 27.77 4.58 3.2127 1 1 2 8 29.64 1.99 3.0140 2 0 0 2 31.56 62.80 2.8346 1 2 1 8 32.22 53.03 2.7785 0 1 3 4 32.44 29.95 2.7596 2 1 0 4 32.66 20.20 2.7416 0 2 2 4 33.01 10.48 2.7133 1 0 3 4 33.94 10.82 2.6413 2 1 1 8 35.71 23.04 2.5140 2 0 2 4 35.99 1.26 2.4956 1 2 2 8 39.54 34.42 2.2789 0 0 4 2 39.80 50.75 2.2646 2 2 0 4 40.66 1.73 2.2191 0 3 1 4 41.07 10.03 2.1978 2 2 1 8 42.23 6.43 2.1398 2 0 3 4 42.40 3.31 2.1317 1 0 4 4 42.47 10.87 2.1285 1 2 3 8 44.34 8.96 2.0429 2 1 3 8 46.27 11.09 1.9622 3 0 1 4 49.90 6.44 1.8277 0 3 3 4 50.05 12.19 1.8224 2 3 0 4 50.25 14.70 1.8158 2 2 3 8 50.39 1.50 1.8108 1 2 4 8 51.11 9.02 1.7870 2 3 1 8 51.89 1.30 1.7620 0 1 5 4 52.04 6.23 1.7572 2 1 4 8 52.43 9.63 1.7451 1 0 5 4 53.39 14.47 1.7160 0 4 0 2 53.82 4.93 1.7034 3 2 1 8 54.21 1.04 1.6921 2 3 2 8 54.77 2.36 1.6760 3 0 3 4 56.68 4.71 1.6240 1 4 1 8 57.36 23.93 1.6064 2 2 4 8 57.38 1.08 1.6059 0 4 2 4 59.11 6.59 1.5628 2 3 3 8 59.25 2.04 1.5596 1 3 4 8 59.42 7.27 1.5555 1 2 5 8 60.90 1.55 1.5212 2 1 5 8 61.58 4.92 1.5060 3 2 3 8 62.46 3.84 1.4868 4 0 1 4 63.16 1.52 1.4721 3 1 4 8 63.17 5.20 1.4719 4 1 0 4 63.18 1.18 1.4717 2 4 1 8 64.22 4.42 1.4503 1 4 3 8 65.59 4.46 1.4233 2 3 4 8 65.90 9.84 1.4173 2 4 2 8 66.79 2.38 1.4007 4 1 2 8 67.41 7.10 1.3892 0 2 6 4 67.93 3.50 1.3798 4 2 0 4 68.44 8.52 1.3708 0 4 4 4 68.81 1.30 1.3643 4 2 1 8 69.21 2.15 1.3575 0 5 1 4 69.26 4.67 1.3567 2 0 6 4 69.64 1.73 1.3502 3 0 5 4 69.64 3.64 1.3501 4 0 3 4 70.32 3.42 1.3387 2 4 3 8 70.79 1.37 1.3309 2 1 6 8 71.43 7.10 1.3206 4 2 2 8 73.29 4.23 1.2917 3 4 1 8 73.47 1.26 1.2889 2 3 5 8 74.11 2.12 1.2794 0 1 7 4 74.55 1.42 1.2729 1 0 7 4 75.55 1.24 1.2585 4 3 0 4 75.66 1.06 1.2570 4 0 4 4 75.70 3.39 1.2564 3 2 5 8 75.70 2.53 1.2564 4 2 3 8 76.05 1.24 1.2515 1 1 7 8 76.08 3.32 1.2510 0 5 3 4 76.21 1.27 1.2493 2 5 0 4 77.14 3.24 1.2364 4 1 4 8 78.11 2.53 1.2235 1 4 5 8 80.03 1.77 1.1990 3 4 3 8 81.56 2.23 1.1803 4 2 4 8 81.78 1.26 1.1777 2 1 7 8 85.87 1.42 1.1318 0 3 7 4 86.14 1.41 1.1289 2 2 7 8 86.16 1.58 1.1287 5 2 1 8 86.64 1.19 1.1237 4 4 1 8 86.94 1.09 1.1206 5 0 3 4 87.44 1.92 1.1155 1 6 1 8 88.02 2.11 1.1096 0 6 2 4 88.82 1.22 1.1017 4 3 4 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.