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Influence of the Interface on the Electric Control of the Magnetization Direction in Fe/PMN-PT Magnetoelectric Heterostructures

磁化 材料科学 磁电效应 凝聚态物理 磁各向异性 多铁性 铁电性 电场 克尔效应 核磁共振 磁场 电介质 光电子学 物理 量子力学 非线性系统
作者
Michelle S. Rodrigues,Sergey Basov,Ivan Mađarević,Thomas Saerbeck,Matteo Ferroni,Patrick Breckner,Daniel Isaia,Lovro Fulanović,Atefeh Jafari,I. Sergueev,O. Leupold,M. J. Van Bael,A. Vantomme,K. Temst
出处
期刊:ACS applied electronic materials [American Chemical Society]
卷期号:6 (4): 2289-2300 被引量:4
标识
DOI:10.1021/acsaelm.3c01800
摘要

High Resolution Image Download MS PowerPoint Slide The magnetization direction of a ferromagnetic (FM) film deposited onto a ferroelectric (FE) substrate undergoes significant changes when it is subjected to applied electric fields. These are mainly due to the strain-mediated magnetoelectric effects associated with the FE switching behavior of the substrates. Here, we report on the magnetoelectric response of the magnetization direction at two different depths within the FM film in an artificial multiferroic heterostructure consisting of a 5 nm FM Fe film deposited onto a 0.7Pb(Mg 1/3 Nb 2/3 )O 3 -0.3PbTiO 3 (PMN-PT) FE single-crystal substrate. The overall magnetic anisotropy of the Fe (5 nm)/PMN-PT system was studied by using magneto-optic Kerr effect (MOKE) magnetometry. On the other hand, the isotope-specific nuclear forward scattering (NFS) of synchrotron radiation was used to study the magnetization direction at two specific depths within the Fe film. Our results reveal that magnetic anisotropy is significantly influenced by the Fe/PMN-PT interface. Additionally, the magnetoelectric response of the easy magnetization direction when the layer is simultaneously subjected to electric and magnetic fields is different at (1st nm of Fe) as compared to away (3rd nm of Fe) from the Fe/PMN-PT interface. At the interface, the magnetization direction is influenced by the electric field-induced strain and charge effects originating in PMN-PT. Away from the interface, a weaker magnetoelectric response of the magnetization direction consistent with previous reports is observed. These results provide insight in understanding the magnetoelectric coupling behavior of such FM/PMN-PT heterostructures, which is crucial to recognize their potential in developing (multi)functional devices based on such systems.
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