Laihunite in planetary materials : An FTIR and TEM study of oxidized synthetic and meteoritic Fe-rich olivine
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概要
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In situ mid-infrared transmission measurements of matrices from carbonaceous chondrites heated up to 572 °C in air were conducted by FTIR spectroscopy. The FTIR spectra of the matrices mainly showed olivine bands. With increasing temperature, up to 477 °C, the spectra did not show significant changes. However, at 572 °C, the ~11-μm band split into a doublet, and the intensity of the ∼ 10-μm band relative to that of the ∼ 11-μm band increased significantly. In synthetic Fe-rich olivine (Fo47) samples heated at 600 °C in air, their mid-infrared spectra showed changes similar to those in meteoritic samples. A TEM observation of the recovered meteoritic samples showed that most olivine grains had a stacking disorder on (001). Selected area electron diffraction patterns of the grains also exhibited extra reflections, corresponding to a similar superstructure to three-fold periodicity along col known as laihunite-3M in Fe2SiO4. Although the synthetic Fe-rich olivine did not have any defect structures before heating, the olivine commonly had a stacking disorder on (001) after heating at 600 °C. Therefore, the changes in mid-infrared spectra of the matrices of carbonaceous chondrites were not caused by chemical reactions among their constituent minerals, but were mainly caused by oxidation of iron within the olivine structure. The mid-infrared spectra of olivine-dominating samples from this study are potential reference data for the oxidation state of olivine in in situ mid-infrared measurements on the Martian surface, in partially oxidized meteorites, on asteroidal surfaces, and in interplanetary dust particles.
- 2012-08-01
著者
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Koike Chiyoe
Department Of Earth And Space Science Osaka University
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Grady Monica
Department Of Earth Sciences The Open University
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Tomioka Naotaka
Department Of Earth And Planetary Sciences Faculty Of Science Kobe University
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Tomioka Naotaka
Department Of Earth And Planetary Sciences Graduate School Of Science Kobe University
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MORLOK Andreas
Department of Earth and Planetary Sciences, Graduate School of Science, Kobe University
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KOHLER Melanie
Institut d'Astrophysique Spatiale, Universite Paris Sud
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Kohler Melanie
Institut D'astrophysique Spatiale Universite Paris Sud
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Morlok Andreas
Department Of Earth And Planetary Sciences Graduate School Of Science Kobe University
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GRADY Monica
Department of Mineralogy, The Natural History Museum
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