SIMS study of self-consisted fractionation of iron and titanium isotopes in ilmenites

A set of terrestrial geological samples with varying compositions of Fe 2O 3+MeO·TiO 2 (Me=Fe, Mg, Mn, etc.), distinguished by their Fe 2O 3 content (<25%), was studied using SIMS. The dependence of isotope fractionation upon the oxide phase content as well as the degree of iron oxidation was det...

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Bibliographic Details
Published inApplied surface science Vol. 231; pp. 903 - 906
Main Authors Didenko, P.I., Efremov, A.A.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.06.2004
Subjects
Energy spectra of secondary ions
Fractionation
Ilmenites
Isotopes
SIMS
Energy spectra of secondary ions
Fractionation
SIMS
Isotopes
Ilmenites
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Summary:A set of terrestrial geological samples with varying compositions of Fe 2O 3+MeO·TiO 2 (Me=Fe, Mg, Mn, etc.), distinguished by their Fe 2O 3 content (<25%), was studied using SIMS. The dependence of isotope fractionation upon the oxide phase content as well as the degree of iron oxidation was determined. It is shown that heavy isotopes fractionation is directly proportional to Fe 2O 3 content and the percentage of higher oxides in the sample. It is also shown that the fugacity of oxygen is a good general integral measure of these physical and chemical changes. It is concluded that the migration, redistribution, and accumulation of the iron group isotopes are controlled by the oxidation–reduction processes. Of particular note is the redistribution of oxygen between the local atomic environment of titanium and iron. The role of the ion-beam induced effects during isotopic SIMS analysis of these specimens is discussed.
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ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2004.03.165