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  • Bogdanovski O. and Jagoutz E. 1996. Sm-Nd system in Divnoe meteorite (abstract). 27th Lunar and Planetary Science Conference. pp. 129130.
  • Buchwald V. F. 1975. Handbook of iron meteorites. Los Angeles: University of California Press. 1426 p.
  • Campbell A. J. and Humayun M. 1999a. Microanalysis of platinum group elements in iron meteorites using laser ablation ICP-MS (abstract #1974). 30th Lunar and Planetary Science Conference. CD-ROM.
  • Campbell A. J. and Humayun M. 1999b. Trace element microanalysis in iron meteorites by laser ablation ICPMS. Analytical Chemistry 71: 939946.
  • Campbell A. J., Humayun M., and Weisberg M. K. 2002. Siderophile element constraints on the formation of metal in the metal-rich chondrites Bencubbin, Weatherford, and Gujba. Geochimica et Cosmochimica Acta 66: 647660.
  • Chabot N. L. and Drake M. J. 1999. Crystallization of magmatic iron meteorites: The role of mixing in the molten core. Meteoritics & Planetary Science 34: 235246.
  • Chabot N. L. and Drake M. J. 2000. Crystallization of magmatic iron meteorites: The effect of phosphorus and liquid immiscibility. Meteoritics & Planetary Science 35: 807816.
  • Chabot N. L., Campbell A. J., Jones J. H., Humayun M., and Agee C. B. 2003. An experimental test of Henry's Law in solid metal-liquid metal systems with implications for iron meteorites. Meteoritics & Planetary Science 38: 181196.
  • Chen J. H. and Wasserburg J. G. 1996a. Live 107Pd in the early solar system and implications for planetary evolution. In Earth processes: Reading the isotopic code, edited by BasuA. and HartS. Geophysical Monograpgh 95. Washington D. C.: American Geophysical Union. pp. 120.
  • Chen J. H. and Wasserburg J. G. 1996b. Live 107Pd in some group II and III irons and the time scales of Fe-Ni segregations in the early solar system (abstract). 27th Lunar and Planetary Science Conference. pp. 209210.
  • Chen J. H., Papanastassiou D. A., and Wasserburg G. J. 2002. Re-Os and Pd-Ag systematics in group IIIAB irons and in pallasites. Geochimica et Cosmochimica Acta 66: 37933810.
  • Cook D. L., Walker R. J., Horan M. F., Wasson J. T., and Morgan J. W. 2004. Pt-Re-Os systematics of group IIAB and IIIAB iron meteorites. Geochimica et Cosmochimica Acta 68: 14131431.
  • Haack H. and Scott E. R. D. 1992. Asteroid core crystallization by inward dendritic growth. Journal of Geophysical Research 97: 1472714734.
  • Haack H. and Scott E. R. D. 1993. Chemical fractionations in group IIIAB iron meteorites: Origin by dendritic crystallization of an asteroidal core. Geochimica et Cosmochimica Acta 57: 34573472.
  • Hirata T. and Nesbitt R. W. 1997. Distribution of platinum group elements and rhenium between metallic phases of iron meteorites. Earth and Planetary Science Letters 147: 1124.
  • Hirata T. and Masuda A. 1992. Rhenium and osmium systematics of iron and stony iron meteorites. Meteoritics 27: 568575.
  • Horan M. F., Smoliar M. I., and Walker R. J. 1998. 182W and 187Re-187Os systematics of iron meteorites: Chronology for melting, differentiation, and crystallization in asteroids. Geochimica et Cosmochimica Acta 62: 545554.
  • Hsieh K. C., Vlach K. C., and Chang Y. A. 1987. The Fe-Ni-S system. I. A thermodynamic analysis of the phase equilibria and calculation of the phase diagram from 1173–1623 K. High Temperature Science 23: 1738.
  • Jones J. H. and Drake M. J. 1983. Experimental investigation of trace element fractionation in iron meteorites, II: The influence of sulfur. Geochimica et Cosmochimica Acta 47: 11991209.
  • Jones J. H. and Malvin D. J. 1990. A nonmetal interaction model for the segregation of trace metals during solidification of Fe-Ni-S, Fe-Ni-P, and Fe-Ni-S-P alloys. Metallurgical Transactions 21B: 697706.
  • Kracher A. and Wasson J. T. 1982. The role of S in the evolution of the parent cores of the iron meteorites. Geochimica et Cosmochimica Acta 4: 24192426.
  • Liu M. and Fleet M. E. 2001. Partitioning of siderophile elements (W, Mo, As, Ag, Ge, Ga, and Sn) and Si in the Fe-S system and their fractionation in iron meteorites. Geochimica et Cosmochimica Acta 65: 671682.
  • Liu M., Fleet M. E., and Crocket J.H. 1999. Partitioning of trace amounts of highly siderophile elements in the Fe-Ni-S system and their fractionation in nature. Geochimica et Cosmochimica Acta 63: 26112622.
  • Lovering J. F., Nichiporuk W., Chodos A., and Brown H. 1957. The distribution of gallium, germanium, cobalt, chromium, and copper in iron and stony-iron meteorites in relation to nickel content and structure. Geochimica et Cosmochimica Acta 11: 263278.
  • Lugmair G. W. and Shukolyukov A. 1998. Early solar system timescales according to 53Mn-53Cr systematics. Geochimica et Cosmochimica Acta 62: 28632886.
  • McDonough W. F., Horn I., Lange D., and Rudnick R. L. 1999. Distribution of platinum group elements between phases in iron meteorites (abstract #2062). 30th Lunar and Planetary Science Conference. CD-ROM.
  • Mermelengas N., de Laeter J. R., and Rosman K. J. R. 1979. New data on the abundance of palladium in meteorites. Geochimica et Cosmochimica Acta 43: 747753.
  • Narayan C. and Goldstein J. I. 1982. A dendritic crystallization model to explain Ge-Ni variations in iron meteorite chemical groups. Geochimica et Cosmochimica Acta 46: 259268.
  • Pernicka E. and Wasson J. T. 1987. Ru, Re, Os, Pt, and Au in iron meteorites. Geochimica et Cosmochimica Acta 51: 17171726.
  • Petaev M. I. and Jacobsen S. B. 2003a. Measurement of PGEs, Re, Mo, W, and Au in meteoritic Fe-Ni metal (abstract #1732). 34th Lunar and Planetary Science Conference. CD-ROM.
  • Petaev M. I. and Jacobsen S. B. 2003b. Differentiation of metal-rich meteoritic parent bodies (abstract #1747). 34th Lunar and Planetary Science Conference. CD-ROM.
  • Petaev M. I., Barsukova L. D., Lipschutz M. E., Wang M. S., Ariskin A. A., Clayton R. N., and Mayeda T. K. 1994. The Divnoe meteorite: Petrology, chemistry, oxygen isotopes and origin. Meteoritics 29: 182199.
  • Rasmussen K. L., Malvin D. J., Buchvald V. F., and Wasson J. T. 1984. Compositional trends and cooling rates of group IVB iron meteorites. Geochimica et Cosmochimica Acta 48: 805811.
  • Ryan D. E., Holzbecher J., and Brooks R. R. 1990. Rhodium and osmium in iron meteorites. Chemical Geology 85: 295303.
  • Schaudy R., Wasson J. T., and Buchwald V. F. 1972. The chemical classification of iron meteorites, a reinvestigation of irons with Ge concentrations lower than 1 ppm. Icarus 17: 174192.
  • Scott E. R. D. 1972. Chemical fractionation in iron meteorites and its interpretation. Geochimica et Cosmochimica Acta 36: 12051236.
  • Scott E. R. D. 1977. Composition, mineralogy, and origin of group IC iron meteorites. Earth and Planetary Science Letters 37: 273284.
  • Scott E. R. D. 1978a. Iron meteorites with low Ga and Ge concentrations—Composition, structure, and genetic relationships. Geochimica et Cosmochimica Acta 42: 12431251.
  • Scott E. R. D. 1978b. Tungsten in iron meteorites. Earth and Planetary Science Letters 39: 363370.
  • Scott E. R. D., Wasson J. T., and Buchwald V. F. 1973. The chemical classification of iron meteorites: VII. Reinvestigation of irons with Ge concentrations between 25 and 80 ppm. Geochimica et Cosmochimica Acta 37: 19571983.
  • Scott E. R. D., Haack H., and McCoy T. J. 1996. Core crystallization and silicate-metal mixing in the parent body of the IVA iron and stony-iron meteorites. Geochimica et Cosmochimica Acta 60: 16151631.
  • Shen J. J., Papanastassiou D. A., and Wasserburg G. J. 1996. Precise Re-Os determinations and systematics of iron meteorites. Geochimica et Cosmochimica Acta 60: 28872900.
  • Smales A. A., Mapper D., and Fouche K. F. 1967. The distribution of some trace elements in iron meteorites, as determined by neutron activation. Geochimica et Cosmochimica Acta 31: 673720.
  • Smoliar M. I., Walker R. J., and Morgan J. W. 1996. Re-Os ages of group IIA, IIIA, IVA, and IVB iron meteorites. Science 271: 10991102.
  • Srinivasan G., Goswami J. N., and Bhandari N. 1999. 26Al in eucrite Piplia Kalan: Possible heat source and formation chronology. Science 284: 13481350.
  • Srinivasan G., Papanastassiou D. A., Wasserburg G. J., Bhandari N., and Goswami J. N. 2000. Re-examination of 26Al-26Mg systematics in the Piplia Kalan eucrite (abstract #1795). 31st Lunar and Planetary Science Conference. CD-ROM.
  • Sylvester P. J. 2001. A practical guide to platinum-group element analysis of sulfides by laser-ablation ICPMS. In Laser-ablation-ICPMS in the earth sciences: Principles and applications, edited by SylvesterP. J. Ottawa: Mineralogical Association of Canada. pp. 203211.
  • Ulf-Møller F. 1998. Effects of liquid immiscibility on trace element fractionation in magmatic iron meteorites: A case study of group IIIAB. Meteoritics & Planetary Science 33: 207220.
  • Walker R. J., Morgan J. W., Beary E. S., Smoliar M. I., Czamanske G. K., and Horan M. F. 1997. Applications of the 190Pt-186Os isotope system to geochemistry and cosmochemistry. Geochimica et Cosmochimica Acta 22: 47994807.
  • Wasson J. T. 1967. The chemical classification of iron meteorites—I. A study of iron meteorites with low concentrations of gallium and germanium. Geochimica et Cosmochimica Acta 31: 161180.
  • Wasson J. T. 1969. The chemical classification of iron meteorites: III. Hexahedrites and other irons with germanium concentrations between 80 and 120 ppm. Geochimica et Cosmochimica Acta 33: 859876.
  • Wasson J. T. 1970. The chemical classification of iron meteorites: IV. Irons with Ge concentrations greater than 190 ppm and other meteorites associated with group I. Icarus 12: 407423.
  • Wasson J. T. 1999. Trapped melt in IIIAB irons; Solid/liquid elemental partitioning during the fractionation of the IIIAB magma. Geochimica et Cosmochimica Acta 63: 28752889.
  • Wasson J. T. and Goldstein J. I. 1968. The north Chilean hexahedrites: Variations in composition and structure. Geochimica et Cosmochimica Acta 32: 329339.
  • Wasson J. T. and Kallemeyn G. W. 2002. The IAB iron-meteorite complex: A group, five subgroups, numerous grouplets, closely related, mainly formed by crystal segregation in rapidly cooling melts. Geochimica et Cosmochimica Acta 66: 24452473.
  • Wasson J. T. and Quyang X. 1990. Compositional range of Canyon Diablo meteoroid. Geochimica et Cosmochimica Acta 54: 31753183.
  • Wasson J. T. and Richardson J. W. 2001. Fractionation trends among I VA iron meteorites: Contrasts with IIIAB trends. Geochimica et Cosmochimica Acta 65: 951970.
  • Wasson J. T. and Wang J. 1986. A non-magmatic origin of group IIE iron meteorites. Geochimica et Cosmochimica Acta 50: 725732.
  • Wasson J. T., Choi B. G., Jerde E. A., and Ulf-Møller F. 1998. Chemical classification of iron meteorites: XII. New members of the magmatic groups. Geochimica et Cosmochimica Acta 62: 715724.
  • Yin Q. Z. and Jacobsen S. B. 2003. The initial 182W/183W and 182Hf/180Hf of the solar system and a consistent chronology with Pb-Pb ages (abstract #1857). 34th Lunar and Planetary Science Conference. CD-ROM.
  • Yin Q. Z., Jacobsen S. B., Yamashita K., Blichert-Toft J., Telouk P., and Albarede F. 2002. A short timescale of terrestrial planet formation determined by Hf-W chronometry. Nature 418: 949952.