Romerite Westland R E Master's Thesis, Queen's University 2012 (2012) 1-161 New phases in the hydrous ferric sulfate system, a supporting argument that the mineral lausenite is of formula Fe2(SO4)3*5H2O and the crystal structure refinement and hydrogen bonding scheme of the minerals quenstedtite and romerite Locality: Alcaparossa, Chile _database_code_amcsd 0021046 CELL PARAMETERS: 6.4274 15.2490 6.3464 89.720 100.790 85.960 SPACE GROUP: P-1 X-RAY WAVELENGTH: 1.541838 Cell Volume: 609.400 Density (g/cm3): 2.190 MAX. ABS. INTENSITY / VOLUME**2: 7.902338196 RIR: 1.175 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 5.81 4.59 15.2085 0 1 0 2 11.64 8.15 7.6043 0 2 0 2 14.06 8.87 6.2971 1 0 0 2 14.83 4.77 5.9735 1 1 0 2 15.26 4.62 5.8052 0 1 1 2 15.46 1.23 5.7306 0 -1 1 2 15.62 2.94 5.6742 -1 1 0 2 17.49 26.25 5.0695 0 3 0 2 17.62 42.68 5.0330 1 2 0 2 18.04 9.29 4.9161 -1 0 1 2 18.57 100.00 4.7776 0 -2 1 2 18.73 9.47 4.7366 -1 -1 1 2 18.94 5.58 4.6857 -1 2 0 2 19.21 1.76 4.6211 -1 1 1 2 21.10 21.86 4.2102 -1 -2 1 2 21.69 19.89 4.0969 1 3 0 2 21.87 24.72 4.0643 1 0 1 2 21.94 67.08 4.0513 -1 2 1 2 22.31 30.63 3.9855 1 1 1 2 22.40 3.03 3.9689 0 3 1 2 22.81 1.66 3.8979 0 -3 1 2 22.98 1.36 3.8700 1 -1 1 2 23.40 2.89 3.8021 0 4 0 2 24.21 15.55 3.6756 1 2 1 2 24.69 4.59 3.6060 -1 -3 1 2 25.77 1.13 3.4571 -1 3 1 2 26.49 4.43 3.3648 1 4 0 2 27.25 3.50 3.2729 0 4 1 2 27.30 12.43 3.2663 1 3 1 2 28.29 24.57 3.1550 -1 4 0 2 28.35 1.51 3.1485 2 0 0 2 28.53 10.13 3.1286 2 1 0 2 28.64 2.01 3.1166 0 0 2 2 28.96 2.15 3.0836 1 -3 1 2 29.08 4.27 3.0709 -1 -4 1 2 29.14 4.99 3.0643 0 1 2 2 29.28 3.35 3.0507 -2 0 1 2 29.36 1.08 3.0417 0 5 0 2 29.38 1.83 3.0396 -2 1 0 2 29.49 11.06 3.0287 -1 0 2 2 29.51 10.17 3.0271 -2 -1 1 2 29.92 4.26 2.9867 2 2 0 2 30.32 20.33 2.9480 -1 4 1 2 30.80 1.01 2.9026 0 2 2 2 30.91 1.83 2.8933 -2 -2 1 2 31.22 9.95 2.8653 0 -2 2 2 31.53 2.37 2.8371 -2 2 0 2 31.73 5.50 2.8203 1 5 0 2 31.99 3.73 2.7975 -1 2 2 2 32.52 3.21 2.7537 0 5 1 2 33.01 2.36 2.7139 0 -5 1 2 33.20 5.07 2.6984 1 -4 1 2 33.34 3.53 2.6878 -2 -3 1 2 33.47 8.94 2.6771 0 3 2 2 33.64 1.79 2.6642 -1 5 0 2 34.23 11.52 2.6198 -1 -3 2 2 34.24 7.04 2.6191 2 0 1 2 34.34 10.62 2.6111 2 1 1 2 34.67 5.69 2.5875 1 1 2 2 35.16 6.10 2.5522 2 -1 1 2 35.21 1.24 2.5486 1 -1 2 2 35.25 1.36 2.5458 -2 3 1 2 35.35 3.17 2.5392 -1 5 1 2 35.41 2.37 2.5348 0 6 0 2 35.48 5.03 2.5301 2 2 1 2 35.68 4.04 2.5165 2 4 0 2 36.62 1.68 2.4541 -2 -4 1 2 36.98 1.87 2.4309 1 -2 2 2 37.30 4.25 2.4106 -2 1 2 2 37.65 11.93 2.3889 -1 -4 2 2 37.99 3.58 2.3683 -2 -2 2 2 38.08 8.86 2.3633 0 6 1 2 38.11 2.30 2.3612 1 3 2 2 39.80 1.74 2.2648 2 -3 1 2 40.73 3.27 2.2152 -1 6 1 2 40.83 2.78 2.2100 1 6 1 2 41.10 2.56 2.1962 1 4 2 2 42.81 1.01 2.1123 -3 -1 1 2 42.96 2.61 2.1051 -2 -4 2 2 42.97 1.13 2.1050 1 -4 2 2 43.10 1.67 2.0990 3 0 0 2 43.16 1.54 2.0960 1 -6 1 2 43.69 1.88 2.0720 -3 -2 1 2 44.59 1.57 2.0321 2 0 2 2 44.64 2.12 2.0300 2 1 2 2 45.08 2.57 2.0112 -2 -6 1 2 45.12 2.67 2.0093 -1 7 0 2 45.30 1.99 2.0017 -3 2 1 2 45.47 2.09 1.9949 0 -2 3 2 45.56 3.51 1.9912 3 3 0 2 45.67 2.22 1.9867 -3 2 0 2 45.72 5.07 1.9845 0 6 2 2 46.32 7.03 1.9603 -1 -6 2 2 46.51 1.21 1.9525 -2 -5 2 2 46.96 1.22 1.9351 0 3 3 2 47.14 1.25 1.9278 -1 6 2 2 47.67 1.88 1.9079 -2 6 0 2 47.69 5.95 1.9068 -2 0 3 2 47.85 1.92 1.9011 0 8 0 2 47.92 1.55 1.8983 -2 -1 3 2 48.06 2.43 1.8933 -2 6 1 2 48.11 5.39 1.8914 -3 3 0 2 48.23 2.36 1.8870 3 1 1 2 48.59 1.60 1.8736 -2 5 2 2 48.93 2.72 1.8615 -2 -2 3 2 49.04 1.08 1.8577 1 8 0 2 49.28 2.39 1.8490 2 -3 2 2 49.59 2.09 1.8383 -1 -4 3 2 49.60 1.22 1.8378 -2 2 3 2 49.60 2.44 1.8378 2 4 2 2 49.89 1.91 1.8278 0 8 1 2 50.44 2.74 1.8093 0 -4 3 2 50.44 3.48 1.8091 3 3 1 2 50.45 5.33 1.8091 0 -8 1 2 50.69 1.34 1.8011 1 -2 3 2 50.82 2.65 1.7967 -3 4 1 2 50.95 2.55 1.7925 -3 -5 1 2 51.67 1.74 1.7690 -2 3 3 2 51.73 1.62 1.7671 0 -7 2 2 52.23 1.84 1.7513 -1 7 2 2 52.27 3.54 1.7500 -3 -4 2 2 52.32 1.60 1.7485 -1 8 1 2 52.65 2.72 1.7385 3 4 1 2 52.67 1.71 1.7377 2 5 2 2 52.79 1.16 1.7340 1 -3 3 2 52.95 1.69 1.7291 -1 -5 3 2 52.97 2.84 1.7285 -2 6 2 2 53.25 1.22 1.7202 -1 5 3 2 54.41 2.02 1.6863 -2 4 3 2 55.50 1.77 1.6556 3 5 1 2 55.56 2.29 1.6540 1 -4 3 2 55.96 1.19 1.6431 3 -4 1 2 56.21 1.03 1.6364 0 8 2 2 56.33 1.25 1.6332 2 6 2 2 57.27 2.92 1.6087 3 1 2 2 58.24 2.64 1.5840 2 -1 3 2 58.26 2.18 1.5837 -1 0 4 2 59.15 1.85 1.5619 -3 6 0 2 59.47 1.33 1.5544 -4 1 0 2 59.49 1.01 1.5537 3 -5 1 2 59.61 1.40 1.5510 2 -2 3 2 59.91 1.13 1.5440 -2 -6 3 2 60.00 2.26 1.5418 2 -6 2 2 60.35 1.35 1.5337 1 6 3 2 60.52 2.57 1.5298 2 7 2 2 60.57 1.02 1.5287 1 -9 1 2 61.03 1.40 1.5182 -2 -9 1 2 61.31 1.28 1.5121 -4 -4 1 2 61.32 1.63 1.5118 -1 3 4 2 62.31 1.36 1.4901 -2 -2 4 2 62.67 1.35 1.4823 -3 4 3 2 63.23 2.42 1.4705 -1 -10 1 2 63.44 1.39 1.4662 2 9 1 2 65.10 1.17 1.4328 4 3 1 2 65.11 1.04 1.4326 0 -4 4 2 66.63 1.62 1.4036 -1 8 3 2 68.09 1.28 1.3770 -4 5 1 2 69.24 2.76 1.3570 0 -10 2 2 69.53 2.38 1.3520 -3 2 4 2 69.65 1.68 1.3499 -1 10 2 2 71.95 1.01 1.3123 -4 6 1 2 74.16 1.22 1.2786 1 9 3 2 76.30 1.51 1.2480 2 -3 4 2 78.11 1.22 1.2235 -2 2 5 2 80.33 1.16 1.1952 3 11 0 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.