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arxiv: 1301.7559 · v1 · pith:5I2GQLG6new · submitted 2013-01-31 · ❄️ cond-mat.mtrl-sci

Electric-field switching magnetization and spin transfer in ultrathin BiFeO3 film

classification ❄️ cond-mat.mtrl-sci
keywords electric-fieldfilmmagnetizationsurfacebilayerfe-t2gfieldorbital
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First-principles density-functional theory calculations show switching magnetization by 90 degree can be achieved in ultrathin BFO film by applying external electric-field. Up-spin carriers appear to the surface with positive field while down-spin ones to the negative field surface, arising from the redistribution of Fe-t2g orbital. The half-metallic behavior of Fe-3d states in the surface of R phase film makes it a promising candidate for AFM/FM bilayer heterostructure possessing electric-field tunable FM magnetization reversal and opens a new way towards designing spintronic multiferroics. The interface exchange-bias effect in this BFO/FM bilayer is mainly driven by the Fe-t2g orbital reconstruction, as well as spin transferring and rearrangement.

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