Haradaite Basso R, Lucchetti G, Palenzona A, Zefiro L Neues Jahrbuch fur Mineralogie, Monatshefte 1995 (1995) 281-288 Haradaite from the Gambatesa mine, eastern Liguria, Italy Locality: Gambatesa mine, eastern Liguria, Italy _database_code_amcsd 0014874 CELL PARAMETERS: 5.3140 14.6910 7.0310 90.000 90.000 90.000 SPACE GROUP: Cmcm X-RAY WAVELENGTH: 1.541838 Cell Volume: 548.896 Density (g/cm3): 3.795 MAX. ABS. INTENSITY / VOLUME**2: 27.72643858 RIR: 2.379 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 12.05 24.87 7.3455 0 2 0 2 21.82 16.60 4.0732 1 1 1 8 24.23 19.93 3.6727 0 4 0 2 24.72 11.05 3.6011 1 3 0 4 25.33 5.86 3.5155 0 0 2 2 27.40 25.29 3.2554 0 4 1 4 27.83 100.00 3.2052 1 3 1 8 28.14 13.51 3.1710 0 2 2 4 31.10 78.92 2.8753 1 1 2 8 33.73 31.69 2.6570 2 0 0 2 34.89 19.04 2.5713 1 5 0 4 35.34 7.35 2.5396 0 4 2 4 35.69 15.24 2.5156 1 3 2 8 36.70 1.11 2.4485 0 6 0 2 37.23 6.79 2.4149 1 5 1 8 38.23 5.66 2.3543 2 2 1 8 38.95 19.12 2.3123 0 6 1 4 40.40 2.25 2.2328 0 2 3 4 42.61 7.51 2.1219 1 1 3 8 42.65 21.14 2.1197 2 0 2 4 43.61 1.40 2.0754 1 5 2 8 43.99 24.06 2.0584 2 4 1 8 44.49 16.26 2.0366 2 2 2 8 45.93 17.58 1.9757 0 4 3 4 46.22 12.79 1.9643 1 3 3 8 46.52 7.21 1.9520 1 7 0 4 48.39 11.06 1.8809 1 7 1 8 49.64 1.25 1.8364 0 8 0 2 50.70 2.83 1.8006 2 6 0 4 51.43 1.91 1.7768 0 8 1 4 52.03 13.83 1.7578 0 0 4 2 52.46 10.45 1.7443 2 6 1 8 52.86 1.42 1.7321 1 5 3 8 53.62 2.96 1.7094 2 2 3 8 53.71 4.48 1.7066 1 7 2 8 53.73 1.75 1.7060 3 1 1 8 54.17 5.88 1.6931 0 6 3 4 55.14 1.19 1.6657 3 3 0 4 56.54 1.01 1.6277 0 8 2 4 56.80 11.21 1.6208 3 3 1 8 57.51 1.99 1.6026 2 6 2 8 58.19 5.12 1.5854 2 4 3 8 58.42 2.37 1.5796 1 3 4 8 58.70 10.20 1.5728 3 1 2 8 60.81 3.69 1.5233 1 9 1 8 61.09 3.41 1.5170 3 5 0 4 61.61 3.62 1.5053 3 3 2 8 61.86 1.91 1.4999 1 7 3 8 62.65 1.12 1.4829 3 5 1 8 63.30 2.73 1.4691 0 10 0 2 63.45 13.07 1.4660 2 0 4 4 64.18 4.80 1.4511 1 5 4 8 65.36 12.70 1.4278 2 6 3 8 65.44 15.74 1.4262 1 9 2 8 66.47 1.98 1.4066 3 1 3 8 69.19 3.17 1.3577 3 3 3 8 69.32 2.14 1.3555 0 10 2 4 69.43 1.89 1.3536 3 7 0 4 70.90 3.01 1.3292 3 7 1 8 70.94 7.27 1.3285 4 0 0 2 72.11 7.58 1.3099 1 3 5 8 72.34 3.26 1.3062 1 7 4 8 72.82 2.36 1.2988 1 9 3 8 73.69 9.25 1.2857 2 10 0 4 74.77 1.05 1.2698 2 8 3 8 75.22 1.60 1.2632 3 7 2 8 77.62 2.27 1.2300 4 4 1 8 77.97 2.48 1.2255 2 2 5 8 77.98 1.45 1.2253 4 2 2 8 78.43 1.64 1.2194 0 6 5 4 81.31 1.42 1.1833 3 9 1 8 81.81 3.19 1.1773 2 4 5 8 81.82 1.02 1.1772 4 4 2 8 82.28 1.22 1.1718 0 0 6 2 83.64 1.56 1.1562 0 12 2 4 84.02 3.32 1.1519 4 6 1 8 84.33 2.18 1.1484 3 5 4 8 85.01 3.16 1.1410 1 7 5 8 85.02 2.27 1.1409 1 1 6 8 85.48 6.74 1.1360 3 9 2 8 85.69 1.15 1.1337 1 11 3 8 86.30 3.34 1.1272 0 10 4 4 87.34 1.20 1.1165 0 8 5 4 87.55 1.17 1.1143 1 3 6 8 87.79 1.75 1.1119 2 12 0 4 88.74 3.90 1.1024 4 4 3 8 89.82 2.07 1.0919 1 13 1 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.