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Effective electrical manipulation of a topological antiferromagnet by orbital torques

Author

Listed:
  • Zhenyi Zheng

    (National University of Singapore)

  • Tao Zeng

    (National University of Singapore)

  • Tieyang Zhao

    (National University of Singapore)

  • Shu Shi

    (National University of Singapore)

  • Lizhu Ren

    (National University of Singapore)

  • Tongtong Zhang

    (Nanyang Technological University)

  • Lanxin Jia

    (National University of Singapore)

  • Youdi Gu

    (National University of Singapore)

  • Rui Xiao

    (National University of Singapore)

  • Hengan Zhou

    (National University of Singapore)

  • Qihan Zhang

    (National University of Singapore)

  • Jiaqi Lu

    (National University of Singapore)

  • Guilei Wang

    (Beijing Superstring Academy of Memory Technology)

  • Chao Zhao

    (Beijing Superstring Academy of Memory Technology)

  • Huihui Li

    (Beijing Superstring Academy of Memory Technology)

  • Beng Kang Tay

    (Nanyang Technological University)

  • Jingsheng Chen

    (National University of Singapore
    National University of Singapore)

Abstract

The electrical control of the non-trivial topology in Weyl antiferromagnets is of great interest for the development of next-generation spintronic devices. Recent studies suggest that the spin Hall effect can switch the topological antiferromagnetic order. However, the switching efficiency remains relatively low. Here, we demonstrate the effective manipulation of antiferromagnetic order in the Weyl semimetal Mn3Sn using orbital torques originating from either metal Mn or oxide CuOx. Although Mn3Sn can convert orbital current to spin current on its own, we find that inserting a heavy metal layer, such as Pt, of appropriate thickness can effectively reduce the critical switching current density by one order of magnitude. In addition, we show that the memristor-like switching behaviour of Mn3Sn can mimic the potentiation and depression processes of a synapse with high linearity—which may be beneficial for constructing accurate artificial neural networks. Our work paves a way for manipulating the topological antiferromagnetic order and may inspire more high-performance antiferromagnetic functional devices.

Suggested Citation

  • Zhenyi Zheng & Tao Zeng & Tieyang Zhao & Shu Shi & Lizhu Ren & Tongtong Zhang & Lanxin Jia & Youdi Gu & Rui Xiao & Hengan Zhou & Qihan Zhang & Jiaqi Lu & Guilei Wang & Chao Zhao & Huihui Li & Beng Kan, 2024. "Effective electrical manipulation of a topological antiferromagnet by orbital torques," Nature Communications, Nature, vol. 15(1), pages 1-8, December.
  • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-45109-1
    DOI: 10.1038/s41467-024-45109-1
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    1. Furong Han & Jing Zhang & Fan Yang & Bo Li & Yu He & Guansong Li & Youxiang Chen & Qisheng Jiang & Yan Huang & Hui Zhang & Jine Zhang & Huaiwen Yang & Huiying Liu & Qinghua Zhang & Hao Wu & Jingsheng , 2024. "Generation of out-of-plane polarized spin current by non-uniform oxygen octahedral tilt/rotation," Nature Communications, Nature, vol. 15(1), pages 1-9, December.

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