Nonreciprocal Transport in a Bilayer of MnBi2Te4and Pt

Chen Ye; Xiangnan Xie; Wenxing Lv; Ke Huang; Allen Jian Yang; Sicong Jiang; Xue Liu; Dapeng Zhu; Xuepeng Qiu; Mingyu Tong; Tong Zhou; Chuang Han Hsu; Guoqing Chang; Hsin Lin; Peisen Li; Kesong Yang; Zhenyu Wang; Tian Jiang; Xiao Renshaw Wang

doi:10.1021/acs.nanolett.1c04756

Nonreciprocal Transport in a Bilayer of MnBi₂Te₄and Pt

Chen Ye
, Xiangnan Xie
, Wenxing Lv
, Ke Huang
, Allen Jian Yang
, Sicong Jiang
, Xue Liu
, Dapeng Zhu
, Xuepeng Qiu
, Mingyu Tong
, Tong Zhou
, Chuang Han Hsu
, Guoqing Chang
, Hsin Lin
, Peisen Li
, Kesong Yang
, Zhenyu Wang^*
, Tian Jiang
, Xiao Renshaw Wang^*

^*Corresponding author for this work

School of Integrated Circuit Science and Engineering

Nanyang Technological University
National University of Defense Technology
Shenzhen Polytechnic
University of California at San Diego
Institutes of Physical Science and Information Technology, Anhui University
Tongji University
Academia Sinica - Institute of Physics
Academy of Military Medical Science China
Beijing Academy of Quantum Information Sciences

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

22 Scopus citations

Abstract

MnBi2Te4 (MBT) is the first intrinsic magnetic topological insulator with the interaction of spin-momentum locked surface electrons and intrinsic magnetism, and it exhibits novel magnetic and topological phenomena. Recent studies suggested that the interaction of electrons and magnetism can be affected by the Mn-doped Bi2Te3 phase at the surface due to inevitable structural defects. Here, we report an observation of nonreciprocal transport, that is, current-direction-dependent resistance, in a bilayer composed of antiferromagnetic MBT and nonmagnetic Pt. The emergence of the nonreciprocal response below the Néel temperature confirms a correlation between nonreciprocity and intrinsic magnetism in the surface state of MBT. The angular dependence of the nonreciprocal transport indicates that nonreciprocal response originates from the asymmetry scattering of electrons at the surface of MBT mediated by magnon. Our work provides an insight into nonreciprocity arising from the correlation between magnetism and Dirac surface electrons in intrinsic magnetic topological insulators.

Original language	English
Pages (from-to)	1366-1373
Number of pages	8
Journal	Nano Letters
Volume	22
Issue number	3
DOIs	https://doi.org/10.1021/acs.nanolett.1c04756
State	Published - 9 Feb 2022

Keywords

asymmetric scattering of electrons
magnetic topological insulator
magnetoresistance
nonreciprocal transport

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10.1021/acs.nanolett.1c04756

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title = "Nonreciprocal Transport in a Bilayer of MnBi2Te4and Pt",

abstract = "MnBi2Te4 (MBT) is the first intrinsic magnetic topological insulator with the interaction of spin-momentum locked surface electrons and intrinsic magnetism, and it exhibits novel magnetic and topological phenomena. Recent studies suggested that the interaction of electrons and magnetism can be affected by the Mn-doped Bi2Te3 phase at the surface due to inevitable structural defects. Here, we report an observation of nonreciprocal transport, that is, current-direction-dependent resistance, in a bilayer composed of antiferromagnetic MBT and nonmagnetic Pt. The emergence of the nonreciprocal response below the N{\'e}el temperature confirms a correlation between nonreciprocity and intrinsic magnetism in the surface state of MBT. The angular dependence of the nonreciprocal transport indicates that nonreciprocal response originates from the asymmetry scattering of electrons at the surface of MBT mediated by magnon. Our work provides an insight into nonreciprocity arising from the correlation between magnetism and Dirac surface electrons in intrinsic magnetic topological insulators.",

keywords = "asymmetric scattering of electrons, magnetic topological insulator, magnetoresistance, nonreciprocal transport",

author = "Chen Ye and Xiangnan Xie and Wenxing Lv and Ke Huang and Yang, \{Allen Jian\} and Sicong Jiang and Xue Liu and Dapeng Zhu and Xuepeng Qiu and Mingyu Tong and Tong Zhou and Hsu, \{Chuang Han\} and Guoqing Chang and Hsin Lin and Peisen Li and Kesong Yang and Zhenyu Wang and Tian Jiang and \{Renshaw Wang\}, Xiao",

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day = "9",

doi = "10.1021/acs.nanolett.1c04756",

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TY - JOUR

T1 - Nonreciprocal Transport in a Bilayer of MnBi2Te4and Pt

AU - Ye, Chen

AU - Xie, Xiangnan

AU - Lv, Wenxing

AU - Huang, Ke

AU - Yang, Allen Jian

AU - Jiang, Sicong

AU - Liu, Xue

AU - Zhu, Dapeng

AU - Qiu, Xuepeng

AU - Tong, Mingyu

AU - Zhou, Tong

AU - Hsu, Chuang Han

AU - Chang, Guoqing

AU - Lin, Hsin

AU - Li, Peisen

AU - Yang, Kesong

AU - Wang, Zhenyu

AU - Jiang, Tian

AU - Renshaw Wang, Xiao

PY - 2022/2/9

Y1 - 2022/2/9

N2 - MnBi2Te4 (MBT) is the first intrinsic magnetic topological insulator with the interaction of spin-momentum locked surface electrons and intrinsic magnetism, and it exhibits novel magnetic and topological phenomena. Recent studies suggested that the interaction of electrons and magnetism can be affected by the Mn-doped Bi2Te3 phase at the surface due to inevitable structural defects. Here, we report an observation of nonreciprocal transport, that is, current-direction-dependent resistance, in a bilayer composed of antiferromagnetic MBT and nonmagnetic Pt. The emergence of the nonreciprocal response below the Néel temperature confirms a correlation between nonreciprocity and intrinsic magnetism in the surface state of MBT. The angular dependence of the nonreciprocal transport indicates that nonreciprocal response originates from the asymmetry scattering of electrons at the surface of MBT mediated by magnon. Our work provides an insight into nonreciprocity arising from the correlation between magnetism and Dirac surface electrons in intrinsic magnetic topological insulators.

AB - MnBi2Te4 (MBT) is the first intrinsic magnetic topological insulator with the interaction of spin-momentum locked surface electrons and intrinsic magnetism, and it exhibits novel magnetic and topological phenomena. Recent studies suggested that the interaction of electrons and magnetism can be affected by the Mn-doped Bi2Te3 phase at the surface due to inevitable structural defects. Here, we report an observation of nonreciprocal transport, that is, current-direction-dependent resistance, in a bilayer composed of antiferromagnetic MBT and nonmagnetic Pt. The emergence of the nonreciprocal response below the Néel temperature confirms a correlation between nonreciprocity and intrinsic magnetism in the surface state of MBT. The angular dependence of the nonreciprocal transport indicates that nonreciprocal response originates from the asymmetry scattering of electrons at the surface of MBT mediated by magnon. Our work provides an insight into nonreciprocity arising from the correlation between magnetism and Dirac surface electrons in intrinsic magnetic topological insulators.

KW - asymmetric scattering of electrons

KW - magnetic topological insulator

KW - magnetoresistance

KW - nonreciprocal transport

UR - https://www.scopus.com/pages/publications/85124143072

U2 - 10.1021/acs.nanolett.1c04756

DO - 10.1021/acs.nanolett.1c04756

M3 - 文章

C2 - 35073094

AN - SCOPUS:85124143072

SN - 1530-6984

VL - 22

SP - 1366

EP - 1373

JO - Nano Letters

JF - Nano Letters

IS - 3

ER -

Nonreciprocal Transport in a Bilayer of MnBi₂Te₄and Pt

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Keywords

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