Emergent perpendicular magnetic anisotropy at the interface of an oxide heterostructure

Chuangye Song; Xuanyi Li; Lvkang Shen; Baoshan Cui; Xing Xu; Guoqiang Yu; Ming Liu; Sheng Meng; Kehui Wu

doi:10.1103/PhysRevB.104.115162

Emergent perpendicular magnetic anisotropy at the interface of an oxide heterostructure

Chuangye Song
, Xuanyi Li
, Lvkang Shen
, Baoshan Cui
, Xing Xu
, Guoqiang Yu
, Ming Liu
, Sheng Meng
, Kehui Wu

Faculty of Electronic and Information Engineering

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Controlling the magnetic anisotropy in magnetic oxides is critical for the development of oxide spintronics. Here we report on the finding of an emergent interfacial magnetism, with unique perpendicular magnetic anisotropy (PMA), at the interface of a half-doped manganite film on substrate, through combined electron spin resonance measurements and density functional theory calculations. The interfacial magnetism can be explained by the orbital-mediated ferromagnetic exchange interaction between Mn ions near the interface, which is enhanced by the compressive strain from the substrate. Our results provide a useful PMA system for possible spintronic applications, as well as atomistic-level insight to the magnetic anisotropy in strained manganite oxide interfaces.

Original language	English
Article number	115162
Journal	Physical Review B
Volume	104
Issue number	11
DOIs	https://doi.org/10.1103/PhysRevB.104.115162
State	Published - 15 Sep 2021

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10.1103/PhysRevB.104.115162

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title = "Emergent perpendicular magnetic anisotropy at the interface of an oxide heterostructure",

abstract = "Controlling the magnetic anisotropy in magnetic oxides is critical for the development of oxide spintronics. Here we report on the finding of an emergent interfacial magnetism, with unique perpendicular magnetic anisotropy (PMA), at the interface of a half-doped manganite film on substrate, through combined electron spin resonance measurements and density functional theory calculations. The interfacial magnetism can be explained by the orbital-mediated ferromagnetic exchange interaction between Mn ions near the interface, which is enhanced by the compressive strain from the substrate. Our results provide a useful PMA system for possible spintronic applications, as well as atomistic-level insight to the magnetic anisotropy in strained manganite oxide interfaces.",

author = "Chuangye Song and Xuanyi Li and Lvkang Shen and Baoshan Cui and Xing Xu and Guoqiang Yu and Ming Liu and Sheng Meng and Kehui Wu",

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T1 - Emergent perpendicular magnetic anisotropy at the interface of an oxide heterostructure

AU - Song, Chuangye

AU - Li, Xuanyi

AU - Shen, Lvkang

AU - Cui, Baoshan

AU - Xu, Xing

AU - Yu, Guoqiang

AU - Liu, Ming

AU - Meng, Sheng

AU - Wu, Kehui

PY - 2021/9/15

Y1 - 2021/9/15

N2 - Controlling the magnetic anisotropy in magnetic oxides is critical for the development of oxide spintronics. Here we report on the finding of an emergent interfacial magnetism, with unique perpendicular magnetic anisotropy (PMA), at the interface of a half-doped manganite film on substrate, through combined electron spin resonance measurements and density functional theory calculations. The interfacial magnetism can be explained by the orbital-mediated ferromagnetic exchange interaction between Mn ions near the interface, which is enhanced by the compressive strain from the substrate. Our results provide a useful PMA system for possible spintronic applications, as well as atomistic-level insight to the magnetic anisotropy in strained manganite oxide interfaces.

AB - Controlling the magnetic anisotropy in magnetic oxides is critical for the development of oxide spintronics. Here we report on the finding of an emergent interfacial magnetism, with unique perpendicular magnetic anisotropy (PMA), at the interface of a half-doped manganite film on substrate, through combined electron spin resonance measurements and density functional theory calculations. The interfacial magnetism can be explained by the orbital-mediated ferromagnetic exchange interaction between Mn ions near the interface, which is enhanced by the compressive strain from the substrate. Our results provide a useful PMA system for possible spintronic applications, as well as atomistic-level insight to the magnetic anisotropy in strained manganite oxide interfaces.

UR - https://www.scopus.com/pages/publications/85116339247

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DO - 10.1103/PhysRevB.104.115162

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SN - 2469-9950

VL - 104

JO - Physical Review B

JF - Physical Review B

IS - 11

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ER -

Emergent perpendicular magnetic anisotropy at the interface of an oxide heterostructure

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