Orschallite Weidenthaler C, Tillmanns E, Hentschel G Mineralogy and Petrology 48 (1993) 167-177 Orschallite, Ca3(SO3)2SO4*12H2O, a new calcium-sulfite-sulfate-hydrate mineral Locality: Hannebacher Ley, Hannebach, Eifel, Germany _database_code_amcsd 0014633 CELL PARAMETERS: 11.3500 11.3500 28.3210 90.000 90.000 120.000 SPACE GROUP: R-3c X-RAY WAVELENGTH: 1.541838 Cell Volume: 3159.592 Density (g/cm3): 1.950 MAX. ABS. INTENSITY / VOLUME**2: 6.327808473 RIR: 1.056 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.96 84.28 8.0747 0 1 2 6 15.42 100.00 5.7450 1 0 4 6 15.61 47.54 5.6750 1 1 0 6 18.24 20.66 4.8638 1 1 3 12 19.12 22.98 4.6430 2 0 2 6 22.02 1.72 4.0374 0 2 4 6 24.16 16.75 3.6836 2 1 1 12 24.53 67.20 3.6290 1 1 6 12 27.22 44.61 3.2765 3 0 0 6 28.74 22.04 3.1065 1 2 5 12 31.14 27.23 2.8725 2 0 8 6 32.54 7.25 2.7520 1 1 9 12 32.73 29.49 2.7365 2 1 7 12 32.91 2.27 2.7214 1 0 10 6 33.01 6.61 2.7136 1 3 1 12 33.29 58.20 2.6916 0 3 6 6 33.29 35.20 2.6916 3 0 6 6 33.47 2.29 2.6770 3 1 2 12 36.58 17.29 2.4565 3 1 5 12 36.62 5.78 2.4538 0 2 10 6 38.13 14.12 2.3601 0 0 12 2 39.87 11.51 2.2608 1 3 7 12 40.11 13.99 2.2479 3 2 1 12 40.51 7.79 2.2270 2 3 2 12 42.05 8.14 2.1487 3 2 4 12 42.13 3.96 2.1449 4 1 0 12 42.73 7.58 2.1162 1 2 11 12 42.92 37.70 2.1073 2 2 9 12 43.18 1.29 2.0951 2 3 5 12 43.26 3.11 2.0916 1 4 3 12 43.26 1.67 2.0916 4 1 3 12 44.90 1.36 2.0187 0 4 8 6 45.79 4.29 1.9814 0 1 14 6 46.50 1.08 1.9528 1 4 6 12 46.50 2.14 1.9528 4 1 6 12 46.65 11.38 1.9472 5 0 2 6 47.82 1.36 1.9019 2 3 8 12 48.03 8.94 1.8942 0 5 4 6 48.10 3.84 1.8917 3 3 0 6 48.44 6.84 1.8793 2 1 13 12 48.64 7.70 1.8718 3 1 11 12 49.08 2.82 1.8561 4 0 10 6 49.12 13.20 1.8548 3 3 3 12 49.15 4.95 1.8536 2 4 1 12 50.28 2.56 1.8145 2 2 12 12 50.98 5.20 1.7915 1 1 15 12 51.89 1.11 1.7620 5 1 1 12 52.09 14.28 1.7559 3 3 6 12 52.22 1.87 1.7518 1 5 2 12 52.53 1.85 1.7420 1 0 16 6 53.30 2.46 1.7187 5 0 8 6 53.49 1.24 1.7130 5 1 4 12 53.87 3.29 1.7019 1 3 13 12 56.14 9.23 1.6382 6 0 0 6 57.03 3.32 1.6149 0 5 10 6 57.09 1.71 1.6133 4 3 1 12 57.39 1.21 1.6055 3 4 2 12 58.11 9.78 1.5873 1 4 12 12 58.11 3.09 1.5873 4 1 12 12 58.68 3.10 1.5734 0 0 18 2 59.75 2.47 1.5477 0 6 6 6 59.75 1.35 1.5477 6 0 6 6 61.12 1.99 1.5162 1 1 18 12 61.94 1.88 1.4982 5 1 10 12 62.17 2.18 1.4931 2 5 6 12 62.17 1.15 1.4931 5 2 6 12 65.85 1.43 1.4183 0 3 18 6 65.91 2.13 1.4172 1 4 15 12 66.30 3.60 1.4098 5 0 14 6 66.41 2.12 1.4077 2 5 9 12 66.41 3.05 1.4077 5 2 9 12 66.66 1.08 1.4030 4 4 3 12 67.73 1.04 1.3834 2 1 19 12 67.90 1.78 1.3803 6 1 8 12 68.15 3.38 1.3760 2 2 18 12 68.97 2.06 1.3615 6 2 1 12 69.14 1.02 1.3587 4 4 6 12 70.46 2.52 1.3363 3 3 15 12 71.14 1.39 1.3253 2 6 5 12 71.17 1.02 1.3248 1 6 10 12 71.76 2.90 1.3154 0 5 16 6 73.18 2.53 1.2934 4 4 9 12 73.42 1.23 1.2897 1 7 3 12 73.42 1.14 1.2897 7 1 3 12 75.79 1.24 1.2551 7 1 6 12 75.79 1.07 1.2551 1 7 6 12 77.00 4.77 1.2384 6 3 0 12 79.18 1.33 1.2097 3 3 18 12 79.57 1.11 1.2047 2 6 11 12 80.12 1.19 1.1978 3 6 6 12 80.12 1.42 1.1978 6 3 6 12 87.19 1.32 1.1180 3 2 22 12 87.70 1.58 1.1128 2 5 18 12 89.80 1.91 1.0922 9 0 0 6 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.