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Discovery of a weak topological insulating state and van Hove singularity in triclinic RhBi2

Author

Listed:
  • Kyungchan Lee

    (Ames Laboratory
    Iowa State University)

  • Gunnar F. Lange

    (University of Cambridge)

  • Lin-Lin Wang

    (Ames Laboratory
    Iowa State University)

  • Brinda Kuthanazhi

    (Ames Laboratory
    Iowa State University)

  • Thaís V. Trevisan

    (Ames Laboratory
    Iowa State University)

  • Na Hyun Jo

    (Ames Laboratory
    Iowa State University)

  • Benjamin Schrunk

    (Ames Laboratory
    Iowa State University)

  • Peter P. Orth

    (Ames Laboratory
    Iowa State University)

  • Robert-Jan Slager

    (University of Cambridge
    Harvard University)

  • Paul C. Canfield

    (Ames Laboratory
    Iowa State University)

  • Adam Kaminski

    (Ames Laboratory
    Iowa State University)

Abstract

Time reversal symmetric (TRS) invariant topological insulators (TIs) fullfil a paradigmatic role in the field of topological materials, standing at the origin of its development. Apart from TRS protected strong TIs, it was realized early on that more confounding weak topological insulators (WTI) exist. WTIs depend on translational symmetry and exhibit topological surface states only in certain directions making it significantly more difficult to match the experimental success of strong TIs. We here report on the discovery of a WTI state in RhBi2 that belongs to the optimal space group P $$\bar{1}$$ 1 ¯ , which is the only space group where symmetry indicated eigenvalues enumerate all possible invariants due to absence of additional constraining crystalline symmetries. Our ARPES, DFT calculations, and effective model reveal topological surface states with saddle points that are located in the vicinity of a Dirac point resulting in a van Hove singularity (VHS) along the (100) direction close to the Fermi energy (EF). Due to the combination of exotic features, this material offers great potential as a material platform for novel quantum effects.

Suggested Citation

  • Kyungchan Lee & Gunnar F. Lange & Lin-Lin Wang & Brinda Kuthanazhi & Thaís V. Trevisan & Na Hyun Jo & Benjamin Schrunk & Peter P. Orth & Robert-Jan Slager & Paul C. Canfield & Adam Kaminski, 2021. "Discovery of a weak topological insulating state and van Hove singularity in triclinic RhBi2," Nature Communications, Nature, vol. 12(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-22136-w
    DOI: 10.1038/s41467-021-22136-w
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    Cited by:

    1. Chenglin Han & Shida Fan & Hong-Tao Zhou & Kuan He & Yurou Jia & Changyou Li & Hongzhu Li & Xiao-Dong Yang & Li-Qun Chen & Tianzhi Yang & Cheng-Wei Qiu, 2025. "All-angle unidirectional flat-band acoustic metasurfaces," Nature Communications, Nature, vol. 16(1), pages 1-7, December.

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