Anomalous compressibility in (Fe,Al)-bearing bridgmanite: implications for the spin state of iron
Author:
Funder
Japan Society for the Promotion of Science
Publisher
Springer Science and Business Media LLC
Subject
Geochemistry and Petrology,General Materials Science
Link
https://link.springer.com/content/pdf/10.1007/s00269-020-01109-3.pdf
Reference51 articles.
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3. Catalli K, Shim SH, Prakapenka VB, Zhao JY, Sturhahn W, Chow P, Xiao YM, Liu HZ, Cynn H, Evans WJ (2010) Spin state of ferric iron in MgSiO3 perovskite and its effect on elastic properties. Earth Planet Sci Lett 289:68–75
4. Catalli K, Shim SH, Dera P, Prakapenka VB, Zhao JY, Sturhahn W, Chow P, Xiao YM, Cynn H, Evans WJ (2011) Effects of the Fe3+ spin transition on the properties of aluminous perovskite-New insights for lower-mantle seismic heterogeneities. Earth Planet Sci Lett 310:293–302
5. Dorfman SM, Dutton SE, Potapkin V, Chumakov AI, Rueff J-P, Chow P, Xiao Y, Cava RJ, Duffy TS, McCammon C, Gillet P (2016) Electronic transitions of iron in almandine-composition glass to 91 GPa. Am Mineral 101:1659–1667
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1. Compressibility of ferropericlase at high-temperature: Evidence for the iron spin crossover in seismic tomography;Earth and Planetary Science Letters;2023-09
2. High-efficiency X-ray emission spectroscopy of cold-compressed Fe2O3and laser-heated pressurized FeCO3using a von Hámos spectrometer;Journal of Analytical Atomic Spectrometry;2023
3. Low-spin ferric iron in primordial bridgmanite crystallized from a deep magma ocean;Scientific Reports;2021-09-30
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