Manganflurlite Kampf A R, Grey I E, MacRae C M, Keck E European Journal of Mineralogy 31 (2019) 127-134 Manganflurlite, ZnMn32+Fe3+(PO4)3(OH)2(H2O)7·2H2O, a new schoonerite-related mineral from the Hagendorf-Sud pegmatite Note: T = 100 K Locality: Hagendorf-Sud pegmatite, Oberpfalz, Bavaria, Germany _database_code_amcsd 0020867 CELL PARAMETERS: 6.3070 11.0740 13.0850 90.000 99.620 90.000 SPACE GROUP: P2_1/m X-RAY WAVELENGTH: 1.541838 Cell Volume: 901.054 Density (g/cm3): 2.828 MAX. ABS. INTENSITY / VOLUME**2: 24.45008388 RIR: 2.816 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 6.85 100.00 12.9010 0 0 1 2 10.53 27.61 8.4029 0 1 1 4 14.24 1.99 6.2183 1 0 0 2 14.74 16.84 6.0080 -1 0 1 2 15.90 17.31 5.5738 0 1 2 4 16.35 5.95 5.4220 1 1 0 4 16.79 9.53 5.2809 -1 1 1 4 16.83 4.65 5.2678 1 0 1 2 17.43 8.19 5.0882 0 2 1 4 20.65 9.53 4.3003 0 0 3 2 21.15 7.23 4.2014 0 2 2 4 21.83 2.13 4.0716 -1 2 1 4 22.91 8.45 3.8813 1 1 2 4 23.10 5.28 3.8508 -1 0 3 2 23.31 2.34 3.8165 1 2 1 4 24.47 9.03 3.6372 -1 1 3 4 26.24 1.11 3.3963 0 2 3 4 27.66 3.45 3.2252 0 0 4 2 27.85 5.29 3.2038 0 3 2 4 28.11 7.84 3.1742 1 3 0 4 28.31 2.98 3.1530 1 1 3 4 28.38 3.37 3.1451 -1 3 1 4 28.83 3.87 3.0966 0 1 4 4 29.53 1.38 3.0251 -2 1 1 4 29.85 2.59 2.9934 2 1 0 4 30.10 4.57 2.9685 -1 1 4 4 31.64 4.25 2.8278 1 2 3 4 31.76 4.43 2.8178 2 1 1 4 31.95 3.56 2.8010 0 3 3 4 32.12 9.29 2.7869 0 2 4 4 32.34 20.05 2.7685 0 4 0 2 32.48 1.10 2.7564 1 3 2 4 32.75 13.33 2.7344 -2 2 1 4 33.04 25.75 2.7110 2 2 0 4 33.09 1.27 2.7069 0 4 1 4 33.28 7.16 2.6924 -1 2 4 4 33.36 4.80 2.6855 1 0 4 2 33.61 1.38 2.6662 -2 1 3 4 33.63 1.35 2.6648 -1 3 3 4 33.95 2.44 2.6404 -2 2 2 4 37.56 1.31 2.3945 -2 1 4 4 38.49 5.15 2.3387 0 2 5 4 40.22 7.73 2.2424 -2 2 4 4 42.02 3.44 2.1502 0 0 6 2 43.26 2.32 2.0914 -1 3 5 4 43.35 2.30 2.0873 1 2 5 4 43.55 1.03 2.0781 -1 5 1 4 43.55 1.16 2.0780 -2 4 1 4 43.57 1.22 2.0771 -3 0 2 2 43.68 1.19 2.0721 2 0 4 2 43.78 3.26 2.0676 2 4 0 4 44.48 4.10 2.0367 2 1 4 4 44.50 1.34 2.0358 -2 4 2 4 45.18 1.47 2.0070 2 4 1 4 46.49 1.07 1.9533 1 5 2 4 46.58 3.04 1.9500 -2 4 3 4 46.71 1.12 1.9447 -3 2 2 4 47.15 2.83 1.9276 1 4 4 4 47.21 1.56 1.9254 -2 0 6 2 47.35 2.17 1.9199 -1 5 3 4 48.05 1.47 1.8936 -3 0 4 2 48.79 1.37 1.8665 -3 1 4 4 49.03 1.20 1.8579 0 3 6 4 49.38 1.11 1.8457 0 6 0 2 49.45 1.76 1.8430 0 0 7 2 49.91 1.45 1.8271 0 6 1 4 50.51 1.66 1.8069 2 3 4 4 50.77 1.37 1.7984 -1 5 4 4 51.10 2.83 1.7875 2 4 3 4 51.50 1.72 1.7745 0 6 2 4 52.08 1.20 1.7559 3 0 3 2 53.63 1.83 1.7088 -2 4 5 4 55.38 3.43 1.6589 2 4 4 4 56.11 1.69 1.6392 -2 2 7 4 57.53 1.43 1.6019 0 6 4 4 57.94 2.53 1.5918 -2 6 1 4 58.12 1.64 1.5871 2 6 0 4 58.38 3.57 1.5807 -2 4 6 4 58.72 1.44 1.5723 -4 0 2 2 59.11 1.17 1.5630 -3 4 4 4 59.34 1.09 1.5575 3 4 2 4 59.46 1.49 1.5546 4 0 0 2 60.10 1.84 1.5395 4 1 0 4 61.80 1.95 1.5011 0 6 5 4 62.58 1.27 1.4842 -2 2 8 4 63.03 1.08 1.4747 -2 6 4 4 64.29 1.11 1.4489 1 2 8 4 64.77 1.23 1.4393 -3 5 4 4 65.35 1.06 1.4279 1 6 5 4 67.69 1.83 1.3843 0 8 0 2 75.63 1.15 1.2574 2 7 4 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.