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Symmetry-enforced topological nodal planes at the Fermi surface of a chiral magnet

Author

Listed:
  • Marc A. Wilde

    (Technische Universität München
    Technische Universität München)

  • Matthias Dodenhöft

    (Technische Universität München)

  • Arthur Niedermayr

    (Technische Universität München)

  • Andreas Bauer

    (Technische Universität München
    Technische Universität München)

  • Moritz M. Hirschmann

    (Max-Planck-Institute for Solid State Research)

  • Kirill Alpin

    (Max-Planck-Institute for Solid State Research)

  • Andreas P. Schnyder

    (Max-Planck-Institute for Solid State Research)

  • Christian Pfleiderer

    (Technische Universität München
    Technische Universität München
    Technische Universität München)

Abstract

Despite recent efforts to advance spintronics devices and quantum information technology using materials with non-trivial topological properties, three key challenges are still unresolved1–9. First, the identification of topological band degeneracies that are generically rather than accidentally located at the Fermi level. Second, the ability to easily control such topological degeneracies. And third, the identification of generic topological degeneracies in large, multisheeted Fermi surfaces. By combining de Haas–van Alphen spectroscopy with density functional theory and band-topology calculations, here we show that the non-symmorphic symmetries10–17 in chiral, ferromagnetic manganese silicide (MnSi) generate nodal planes (NPs)11,12, which enforce topological protectorates (TPs) with substantial Berry curvatures at the intersection of the NPs with the Fermi surface (FS) regardless of the complexity of the FS. We predict that these TPs will be accompanied by sizeable Fermi arcs subject to the direction of the magnetization. Deriving the symmetry conditions underlying topological NPs, we show that the 1,651 magnetic space groups comprise 7 grey groups and 26 black-and-white groups with topological NPs, including the space group of ferromagnetic MnSi. Thus, the identification of symmetry-enforced TPs, which can be controlled with a magnetic field, on the FS of MnSi suggests the existence of similar properties—amenable for technological exploitation—in a large number of materials.

Suggested Citation

  • Marc A. Wilde & Matthias Dodenhöft & Arthur Niedermayr & Andreas Bauer & Moritz M. Hirschmann & Kirill Alpin & Andreas P. Schnyder & Christian Pfleiderer, 2021. "Symmetry-enforced topological nodal planes at the Fermi surface of a chiral magnet," Nature, Nature, vol. 594(7863), pages 374-379, June.
  • Handle: RePEc:nat:nature:v:594:y:2021:i:7863:d:10.1038_s41586-021-03543-x
    DOI: 10.1038/s41586-021-03543-x
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    Cited by:

    1. Geng Li & Haitao Yang & Peijie Jiang & Cong Wang & Qiuzhen Cheng & Shangjie Tian & Guangyuan Han & Chengmin Shen & Xiao Lin & Hechang Lei & Wei Ji & Ziqiang Wang & Hong-Jun Gao, 2022. "Chirality locking charge density waves in a chiral crystal," Nature Communications, Nature, vol. 13(1), pages 1-7, December.
    2. Xian P. Yang & Yueh-Ting Yao & Pengyu Zheng & Shuyue Guan & Huibin Zhou & Tyler A. Cochran & Che-Min Lin & Jia-Xin Yin & Xiaoting Zhou & Zi-Jia Cheng & Zhaohu Li & Tong Shi & Md Shafayat Hossain & She, 2024. "A topological Hund nodal line antiferromagnet," Nature Communications, Nature, vol. 15(1), pages 1-10, December.

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