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Main Authors: Jia, Ke, Yao, Jingyu, He, Xiaobo, Li, Yupeng, Deng, Junze, Yang, Ming, Wang, Junfeng, Zhu, Zengwei, Wang, Cuixiang, Yan, Dayu, Feng, Hai L., Shen, Jie, Luo, Yongkang, Wang, Zhijun, Shi, Youguo
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2403.07637
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author Jia, Ke
Yao, Jingyu
He, Xiaobo
Li, Yupeng
Deng, Junze
Yang, Ming
Wang, Junfeng
Zhu, Zengwei
Wang, Cuixiang
Yan, Dayu
Feng, Hai L.
Shen, Jie
Luo, Yongkang
Wang, Zhijun
Shi, Youguo
author_facet Jia, Ke
Yao, Jingyu
He, Xiaobo
Li, Yupeng
Deng, Junze
Yang, Ming
Wang, Junfeng
Zhu, Zengwei
Wang, Cuixiang
Yan, Dayu
Feng, Hai L.
Shen, Jie
Luo, Yongkang
Wang, Zhijun
Shi, Youguo
contents Magnetic Weyl semimetal (MWS) is a unique topological state with open surface Fermi arc states and other exotic transport phenomena. However, most reported MWSs show multiple pairs of Weyl points and complicated Fermi surfaces, which increases the difficulty of the investigation into the intrinsic chiral transport property. In this wor, we successfully synthesized a soft magnetic Weyl semimetal Eu$_3$In$_2$As$_4$ with a single pair of Weyl points under magnetic fields. The Shubnikov de Haas (SdH) oscillation with a single frequency, as well as a linear hall resistance with the same carrier density, is observed up to 50 Tesla, indicating a single pair of Weyl points around the Fermi level with a massless fermion ($m^* = 0.121 m_0$, $π$ Berry phase). Such a single pair of Weyl points is further confirmed by the density functional theory calculations. The magnetic ordering and band topology can be easily tuned by the external magnetic field. The field-induced MWS Eu$_3$In$_2$As$_4$ with a single pair of Weyl points is a good platform to detect chiral transport properties, including possible quantum anomalous Hall effect.
format Preprint
id arxiv_https___arxiv_org_abs_2403_07637
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Discovery of a Magnetic Topological Semimetal Eu$_3$In$_2$As$_4$ with a Single Pair of Weyl Points
Jia, Ke
Yao, Jingyu
He, Xiaobo
Li, Yupeng
Deng, Junze
Yang, Ming
Wang, Junfeng
Zhu, Zengwei
Wang, Cuixiang
Yan, Dayu
Feng, Hai L.
Shen, Jie
Luo, Yongkang
Wang, Zhijun
Shi, Youguo
Mesoscale and Nanoscale Physics
Materials Science
Magnetic Weyl semimetal (MWS) is a unique topological state with open surface Fermi arc states and other exotic transport phenomena. However, most reported MWSs show multiple pairs of Weyl points and complicated Fermi surfaces, which increases the difficulty of the investigation into the intrinsic chiral transport property. In this wor, we successfully synthesized a soft magnetic Weyl semimetal Eu$_3$In$_2$As$_4$ with a single pair of Weyl points under magnetic fields. The Shubnikov de Haas (SdH) oscillation with a single frequency, as well as a linear hall resistance with the same carrier density, is observed up to 50 Tesla, indicating a single pair of Weyl points around the Fermi level with a massless fermion ($m^* = 0.121 m_0$, $π$ Berry phase). Such a single pair of Weyl points is further confirmed by the density functional theory calculations. The magnetic ordering and band topology can be easily tuned by the external magnetic field. The field-induced MWS Eu$_3$In$_2$As$_4$ with a single pair of Weyl points is a good platform to detect chiral transport properties, including possible quantum anomalous Hall effect.
title Discovery of a Magnetic Topological Semimetal Eu$_3$In$_2$As$_4$ with a Single Pair of Weyl Points
topic Mesoscale and Nanoscale Physics
Materials Science
url https://arxiv.org/abs/2403.07637