Gasparite-(Ce) Kolitsch U, Holtstam D, Gatedal K European Journal of Mineralogy 16 (2004) 111-116 Crystal chemistry of REEXO4 compounds (X = P, As, V). I. Paragenesis and crystal structure of phosphatian gasparite-(Ce) from the Kesebol Mn-Fe-Cu deposit, Vastra Gotaland, Sweden Locality: Kesebol Mn-Fe-Cu deposit, Vastra Gotaland, Sweden _database_code_amcsd 0007026 CELL PARAMETERS: 6.9290 7.1290 6.6970 90.000 104.460 90.000 SPACE GROUP: P2_1/n X-RAY WAVELENGTH: 1.541838 Cell Volume: 320.331 Density (g/cm3): 5.506 MAX. ABS. INTENSITY / VOLUME**2: 71.27818742 RIR: 4.215 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 16.47 5.45 5.3827 -1 0 1 2 18.16 8.41 4.8859 1 1 0 4 18.50 11.11 4.7971 0 1 1 4 20.68 11.66 4.2957 -1 1 1 4 21.30 3.66 4.1713 1 0 1 2 24.73 5.18 3.6003 1 1 1 4 24.98 13.92 3.5645 0 2 0 2 26.57 58.02 3.3548 2 0 0 2 27.51 4.85 3.2424 0 0 2 2 28.35 100.00 3.1479 1 2 0 4 29.43 16.21 3.0355 2 1 0 4 29.54 1.01 3.0240 -2 1 1 4 30.18 25.46 2.9611 -1 1 2 4 30.28 67.07 2.9515 0 1 2 4 33.29 20.51 2.6913 -2 0 2 2 35.66 18.35 2.5179 -2 1 2 4 35.92 11.78 2.5003 1 1 2 4 36.79 4.35 2.4430 2 2 0 4 37.41 4.96 2.4037 -1 2 2 4 39.19 2.15 2.2986 -3 0 1 2 40.26 1.23 2.2400 1 3 0 4 40.43 8.84 2.2312 0 3 1 4 40.52 9.41 2.2261 -1 0 3 2 41.27 8.24 2.1877 -3 1 1 4 41.82 6.69 2.1602 2 2 1 4 42.07 1.14 2.1479 -2 2 2 4 42.36 2.62 2.1340 3 1 0 4 43.85 1.39 2.0648 1 3 1 4 44.95 1.99 2.0168 -3 1 2 4 45.30 28.34 2.0018 2 1 2 4 46.12 1.97 1.9682 3 0 1 2 46.93 4.47 1.9361 -2 3 1 4 47.29 1.65 1.9221 1 0 3 2 47.36 25.54 1.9193 -1 3 2 4 47.95 1.06 1.8972 3 1 1 4 48.02 12.79 1.8945 3 2 0 4 49.30 3.77 1.8483 0 2 3 4 50.39 17.01 1.8111 -3 2 2 4 50.89 1.49 1.7942 -3 0 3 2 51.07 1.67 1.7884 2 3 1 4 51.07 1.88 1.7883 -2 2 3 4 51.26 4.96 1.7823 0 4 0 2 51.29 1.19 1.7813 -2 3 2 4 51.48 20.05 1.7751 1 3 2 4 53.17 8.54 1.7225 1 4 0 4 54.72 2.73 1.6774 4 0 0 2 55.00 7.25 1.6697 -4 0 2 2 56.35 5.65 1.6328 4 1 0 4 56.46 1.86 1.6299 -1 1 4 4 56.50 4.23 1.6286 3 3 0 4 56.54 1.86 1.6276 -2 0 4 2 56.62 1.00 1.6257 -4 1 2 4 56.79 4.29 1.6212 0 0 4 2 57.04 3.10 1.6146 3 1 2 4 58.14 5.57 1.5867 -2 1 4 4 58.37 2.08 1.5809 0 1 4 4 58.62 4.53 1.5747 -3 3 2 4 58.66 3.22 1.5739 2 4 0 4 61.16 4.24 1.5154 -1 2 4 4 61.31 1.28 1.5120 -4 2 2 4 61.71 1.16 1.5031 3 2 2 4 62.32 1.55 1.4900 2 2 3 4 62.50 2.06 1.4860 -2 4 2 4 63.23 2.10 1.4707 -3 1 4 4 66.84 1.29 1.3998 -4 3 1 4 67.16 2.28 1.3938 3 4 0 4 68.08 6.80 1.3771 1 2 4 4 68.57 4.37 1.3686 -1 3 4 4 69.09 2.67 1.3596 -3 4 2 4 69.09 5.78 1.3596 3 3 2 4 69.19 1.31 1.3579 4 0 2 2 70.55 3.45 1.3349 2 0 4 2 70.61 2.09 1.3339 4 1 2 4 71.32 5.12 1.3223 -4 1 4 4 71.55 1.91 1.3187 5 1 0 4 71.96 1.56 1.3122 2 5 0 4 72.41 5.08 1.3052 0 5 2 4 74.35 4.17 1.2758 -5 2 2 4 74.73 5.59 1.2703 -3 3 4 4 75.45 2.58 1.2599 -2 5 2 4 78.36 1.26 1.2202 -1 4 4 4 78.50 1.29 1.2185 -4 4 2 4 80.01 1.44 1.1993 0 4 4 4 80.91 1.97 1.1882 0 6 0 2 81.83 3.72 1.1770 2 5 2 4 82.56 3.45 1.1685 5 3 0 4 84.25 1.88 1.1493 -6 0 2 2 84.69 1.60 1.1445 1 4 4 4 86.97 2.08 1.1203 3 2 4 4 87.00 2.55 1.1200 2 6 0 4 88.51 1.96 1.1047 6 1 0 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.