Gysinite-(Nd) Chabot B, Sarp H Zeitschrift fur Kristallographie 171 (1985) 155-158 Structure refinement of gysinite La.16Nd1.18Pb0.66(CO3)2(OH)1.34(H2O).66 Locality: Shinkolobwe, Shaba - Zaire _database_code_amcsd 0010922 CELL PARAMETERS: 5.0028 8.5550 7.2392 90.000 90.000 90.000 SPACE GROUP: Pmcn X-RAY WAVELENGTH: 1.541838 Cell Volume: 309.830 Density (g/cm3): 5.187 MAX. ABS. INTENSITY / VOLUME**2: 73.82484659 RIR: 4.634 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 16.04 40.01 5.5262 0 1 1 4 20.57 100.00 4.3186 1 1 0 4 20.77 23.61 4.2775 0 2 0 2 23.99 56.66 3.7088 1 1 1 8 24.17 47.44 3.6827 0 2 1 4 24.59 10.69 3.6196 0 0 2 2 26.74 39.83 3.3335 0 1 2 4 30.13 21.52 2.9658 1 2 1 8 30.48 67.29 2.9325 1 0 2 4 32.40 4.04 2.7631 0 2 2 4 33.78 25.82 2.6532 0 3 1 4 35.90 26.81 2.5014 2 0 0 2 36.26 2.67 2.4774 1 3 0 4 37.17 15.13 2.4187 1 2 2 8 38.40 47.09 2.3440 1 3 1 8 38.77 20.95 2.3224 0 1 3 4 39.55 2.07 2.2788 2 1 1 8 41.84 7.14 2.1593 2 2 0 4 42.26 12.15 2.1388 0 4 0 2 42.93 3.31 2.1065 1 1 3 8 43.04 1.51 2.1017 0 2 3 4 43.75 42.43 2.0692 2 2 1 8 44.00 2.06 2.0578 2 0 2 4 44.15 10.65 2.0511 0 4 1 4 45.33 36.44 2.0008 2 1 2 8 46.89 28.21 1.9377 1 2 3 8 47.93 9.00 1.8978 1 4 1 8 49.13 1.96 1.8544 2 2 2 8 49.48 22.83 1.8421 0 3 3 4 50.12 9.50 1.8201 2 3 1 8 50.42 5.67 1.8098 0 0 4 2 51.62 2.98 1.7706 0 1 4 4 52.97 4.08 1.7286 1 3 3 8 52.99 10.52 1.7280 1 4 2 8 53.87 6.34 1.7020 2 1 3 8 53.87 5.42 1.7019 1 0 4 4 55.01 12.02 1.6692 1 1 4 8 55.10 1.27 1.6668 0 2 4 4 56.20 7.76 1.6368 3 1 0 4 56.62 3.50 1.6256 2 4 0 4 56.87 7.80 1.6189 1 5 0 4 57.25 2.63 1.6091 2 2 3 8 57.75 3.10 1.5965 3 1 1 8 58.16 7.97 1.5861 2 4 1 8 59.78 5.95 1.5469 0 5 2 4 60.76 6.44 1.5244 1 4 3 8 60.99 4.11 1.5191 3 2 1 8 61.19 6.31 1.5146 3 0 2 4 62.63 13.63 1.4833 2 3 3 8 63.44 2.60 1.4663 2 0 4 4 64.48 4.38 1.4452 2 1 4 8 65.36 2.42 1.4277 3 2 2 8 65.46 3.27 1.4258 0 6 0 2 66.19 7.09 1.4119 3 3 1 8 67.53 1.35 1.3870 2 2 4 8 67.58 1.34 1.3861 2 5 1 8 67.84 2.15 1.3815 0 4 4 4 68.33 3.29 1.3727 1 1 5 8 68.41 2.53 1.3714 0 2 5 4 70.75 1.75 1.3317 1 4 4 8 71.74 9.47 1.3156 2 5 2 8 72.33 7.95 1.3063 3 2 3 8 73.14 2.01 1.2939 3 4 1 8 73.91 8.07 1.2823 1 6 2 8 76.11 3.26 1.2507 4 0 0 2 76.15 8.87 1.2500 1 3 5 8 76.98 4.05 1.2387 2 6 0 4 77.17 2.20 1.2360 3 4 2 8 77.90 1.27 1.2264 3 0 4 4 78.47 1.12 1.2188 2 5 3 8 78.85 4.09 1.2140 3 1 4 8 79.21 1.03 1.2094 2 4 4 8 79.42 4.54 1.2066 1 5 4 8 79.43 1.46 1.2065 0 0 6 2 79.74 6.22 1.2025 2 2 5 8 80.03 1.98 1.1990 0 4 5 4 80.41 2.89 1.1942 3 5 0 4 80.98 1.01 1.1872 1 7 0 4 81.23 2.93 1.1843 4 2 1 8 82.18 1.52 1.1729 1 0 6 4 82.26 1.08 1.1720 2 6 2 8 82.30 2.30 1.1716 1 7 1 8 82.35 3.24 1.1710 4 1 2 8 83.12 2.76 1.1620 1 1 6 8 83.48 1.74 1.1579 0 7 2 4 83.77 2.37 1.1547 3 4 3 8 85.91 2.30 1.1313 4 3 1 8 86.99 1.65 1.1200 0 6 4 4 87.64 1.71 1.1134 2 5 4 8 88.87 2.07 1.1012 4 1 3 8 89.72 1.42 1.0929 1 6 4 8 90.00 1.35 1.0903 0 7 3 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.