Libethenite Heritsch H Zeitschrift fur Kristallographie 102 (1940) 1-12 Die Struktur des Libethenites Cu2 (O H) (P O4) _cod_database_code 1010980 _database_code_amcsd 0017896 CELL PARAMETERS: 8.4300 8.0800 5.9000 90.000 90.000 90.000 SPACE GROUP: Pnnm X-RAY WAVELENGTH: 1.541838 Cell Volume: 401.875 Density (g/cm3): 3.934 MAX. ABS. INTENSITY / VOLUME**2: 17.43656469 RIR: 1.443 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 15.19 84.70 5.8332 1 1 0 4 18.35 97.81 4.8337 1 0 1 4 18.62 85.16 4.7649 0 1 1 4 21.08 2.19 4.2150 2 0 0 2 22.00 1.61 4.0400 0 2 0 2 23.81 46.01 3.7371 2 1 0 4 24.43 32.14 3.6432 1 2 0 4 30.30 8.59 2.9500 0 0 2 2 30.65 73.64 2.9166 2 2 0 4 33.77 52.03 2.6541 3 1 0 4 34.06 100.00 2.6325 1 1 2 8 34.30 24.55 2.6146 2 2 1 8 34.97 39.19 2.5656 1 3 0 4 35.38 24.83 2.5370 3 0 1 4 36.68 20.47 2.4501 0 3 1 4 37.14 27.19 2.4205 3 1 1 8 37.20 12.13 2.4169 2 0 2 4 37.76 46.89 2.3825 0 2 2 4 38.25 22.20 2.3528 1 3 1 8 38.89 30.93 2.3155 2 1 2 8 39.30 1.10 2.2927 1 2 2 8 39.71 4.95 2.2696 2 3 0 4 43.64 11.80 2.0741 2 2 2 8 44.42 2.26 2.0393 4 1 0 4 44.87 1.52 2.0200 0 4 0 2 46.00 3.90 1.9731 3 1 2 8 46.72 2.92 1.9444 3 3 0 4 46.93 7.23 1.9359 1 3 2 8 47.15 10.02 1.9274 4 1 1 8 47.47 6.78 1.9152 1 0 3 4 47.59 6.00 1.9109 0 1 3 4 48.73 3.61 1.8685 4 2 0 4 48.87 12.34 1.8638 1 4 1 8 50.07 5.09 1.8216 2 4 0 4 50.20 6.35 1.8172 3 2 2 8 50.75 5.88 1.7988 2 3 2 8 52.58 1.01 1.7405 2 4 1 8 53.43 36.19 1.7148 4 0 2 4 55.10 15.75 1.6667 0 4 2 4 55.69 12.52 1.6505 5 1 0 4 56.43 5.77 1.6306 2 2 3 8 56.70 26.87 1.6235 3 3 2 8 56.79 3.59 1.6211 5 0 1 4 57.17 4.76 1.6112 3 0 3 4 57.70 6.33 1.5977 4 3 1 8 58.03 9.06 1.5894 5 1 1 8 58.07 4.33 1.5883 0 3 3 4 58.12 9.78 1.5871 1 5 0 4 58.40 6.65 1.5803 3 4 1 8 58.40 6.67 1.5801 3 1 3 8 58.47 13.46 1.5785 4 2 2 8 59.20 5.50 1.5608 1 3 3 8 59.29 1.17 1.5586 0 5 1 4 59.65 31.19 1.5499 2 4 2 8 60.40 7.93 1.5326 1 5 1 8 61.45 4.15 1.5089 2 5 0 4 63.02 19.76 1.4750 0 0 4 2 63.83 20.46 1.4583 4 4 0 4 64.72 2.83 1.4404 5 1 2 8 65.25 2.33 1.4300 1 1 4 8 65.99 3.02 1.4156 4 1 3 8 66.78 1.11 1.4009 3 5 0 4 66.95 1.52 1.3977 1 5 2 8 67.38 3.77 1.3898 1 4 3 8 67.69 2.43 1.3842 6 1 0 4 68.13 3.84 1.3762 5 2 2 8 68.37 3.26 1.3720 2 1 4 8 68.65 2.54 1.3672 1 2 4 8 69.84 1.84 1.3467 0 6 0 2 70.04 6.32 1.3434 2 5 2 8 70.86 1.27 1.3298 1 6 0 4 71.03 5.69 1.3270 6 2 0 4 71.70 9.41 1.3163 2 2 4 8 72.27 5.39 1.3073 4 4 2 8 73.09 1.54 1.2947 6 2 1 8 73.45 8.03 1.2893 3 1 4 8 73.66 6.62 1.2861 5 3 2 8 73.88 3.83 1.2828 2 6 0 4 74.07 1.31 1.2800 5 0 3 4 74.15 7.16 1.2787 1 3 4 8 74.85 4.16 1.2685 6 0 2 4 74.86 2.46 1.2684 4 3 3 8 75.07 7.49 1.2654 3 5 2 8 75.14 3.79 1.2643 5 4 1 8 75.15 3.72 1.2642 5 1 3 8 75.47 2.47 1.2596 3 4 3 8 75.91 1.65 1.2535 2 6 1 8 75.93 1.29 1.2531 4 5 1 8 75.93 1.66 1.2531 6 1 2 8 77.12 1.10 1.2368 2 3 4 8 77.24 3.52 1.2351 1 5 3 8 78.00 2.07 1.2251 0 6 2 4 83.88 1.47 1.1534 6 4 0 4 84.52 1.24 1.1463 2 4 4 8 85.77 1.01 1.1328 0 7 1 4 86.71 1.03 1.1230 3 6 2 8 88.53 4.38 1.1045 7 1 2 8 89.01 5.04 1.0998 5 1 4 8 89.05 3.58 1.0994 7 3 0 4 89.62 1.34 1.0939 2 2 5 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.