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Atomically precise engineering of spin–orbit polarons in a kagome magnetic Weyl semimetal

Author

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  • Hui Chen

    (Chinese Academy of Sciences
    University of Chinese Academy of Sciences
    Songshan Lake Materials Laboratory)

  • Yuqing Xing

    (Chinese Academy of Sciences
    University of Chinese Academy of Sciences)

  • Hengxin Tan

    (Weizmann Institute of Science)

  • Li Huang

    (Chinese Academy of Sciences
    University of Chinese Academy of Sciences)

  • Qi Zheng

    (Chinese Academy of Sciences
    University of Chinese Academy of Sciences)

  • Zihao Huang

    (Chinese Academy of Sciences
    University of Chinese Academy of Sciences)

  • Xianghe Han

    (Chinese Academy of Sciences
    University of Chinese Academy of Sciences)

  • Bin Hu

    (Chinese Academy of Sciences
    University of Chinese Academy of Sciences)

  • Yuhan Ye

    (Chinese Academy of Sciences
    University of Chinese Academy of Sciences)

  • Yan Li

    (Chinese Academy of Sciences
    University of Chinese Academy of Sciences)

  • Yao Xiao

    (Chinese Academy of Sciences
    University of Chinese Academy of Sciences)

  • Hechang Lei

    (Renmin University of China)

  • Xianggang Qiu

    (Chinese Academy of Sciences)

  • Enke Liu

    (Chinese Academy of Sciences)

  • Haitao Yang

    (Chinese Academy of Sciences
    University of Chinese Academy of Sciences
    Songshan Lake Materials Laboratory)

  • Ziqiang Wang

    (Boston College)

  • Binghai Yan

    (Weizmann Institute of Science)

  • Hong-Jun Gao

    (Chinese Academy of Sciences
    University of Chinese Academy of Sciences
    Songshan Lake Materials Laboratory)

Abstract

Atomically precise defect engineering is essential to manipulate the properties of emerging topological quantum materials for practical quantum applications. However, this remains challenging due to the obstacles in modifying the typically complex crystal lattice with atomic precision. Here, we report the atomically precise engineering of the vacancy-localized spin–orbit polarons in a kagome magnetic Weyl semimetal Co3Sn2S2, using scanning tunneling microscope. We achieve the step-by-step repair of the selected vacancies, leading to the formation of artificial sulfur vacancies with elaborate geometry. We find that that the bound states localized around these vacancies undergo a symmetry dependent energy shift towards Fermi level with increasing vacancy size. As the vacancy size increases, the localized magnetic moments of spin–orbit polarons become tunable and eventually become itinerantly negative due to spin–orbit coupling in the kagome flat band. These findings provide a platform for engineering atomic quantum states in topological quantum materials at the atomic scale.

Suggested Citation

  • Hui Chen & Yuqing Xing & Hengxin Tan & Li Huang & Qi Zheng & Zihao Huang & Xianghe Han & Bin Hu & Yuhan Ye & Yan Li & Yao Xiao & Hechang Lei & Xianggang Qiu & Enke Liu & Haitao Yang & Ziqiang Wang & B, 2024. "Atomically precise engineering of spin–orbit polarons in a kagome magnetic Weyl semimetal," Nature Communications, Nature, vol. 15(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-46729-3
    DOI: 10.1038/s41467-024-46729-3
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