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Backscattering in topological edge states despite time-reversal symmetry

Author

Listed:
  • Jonas Erhardt

    (Universität Würzburg
    Universität Würzburg)

  • Mattia Iannetti

    (University of L’Aquila)

  • Fernando Dominguez

    (Universität Würzburg
    Universität Würzburg)

  • Ewelina M. Hankiewicz

    (Universität Würzburg
    Universität Würzburg)

  • Björn Trauzettel

    (Universität Würzburg
    Universität Würzburg)

  • Gianni Profeta

    (University of L’Aquila
    SPIN-CNR, University of L’Aquila)

  • Domenico Sante

    (University of Bologna)

  • Giorgio Sangiovanni

    (Universität Würzburg
    Universität Würzburg)

  • Simon Moser

    (Universität Würzburg
    Universität Würzburg)

  • Ralph Claessen

    (Universität Würzburg
    Universität Würzburg)

Abstract

Spin-momentum-locked edge states of quantum spin Hall insulators provide a compelling platform for spintronic applications, owing to their intrinsic protection against backscattering from non-magnetic disorder. This protection emerges from time-reversal symmetry, which pairs Kramers partners of helical edge modes with opposite spin and momentum, thereby strictly forbidding elastic single-particle backscattering within the pair. Yet, contrary to the idealized notion of linear edge bands, the non-monotonic dispersions of realistic materials can host multiple Kramers pairs, reintroducing backscattering channels between them without violating time-reversal symmetry. Here, we investigate inter-Kramers pair backscattering in the non-linear edge bands of the quantum spin Hall insulator indenene, highlighting a critical aspect of edge state stability. Using quasiparticle interference in scanning tunneling spectroscopy – a direct probe of backscattering – we observe intra-band coupling between different Kramers pairs, while energy regions with only a single Kramers pair remain strictly protected. Supported by theoretical analysis, our findings provide an unprecedented experimental demonstration of edge state backscattering fully consistent with their underlying topological protection. This insight has profound implications for numerous quantum spin Hall insulator candidates, emphasizing that the mere presence of gap-traversing edge modes does not inherently guarantee their protection against backscattering.

Suggested Citation

  • Jonas Erhardt & Mattia Iannetti & Fernando Dominguez & Ewelina M. Hankiewicz & Björn Trauzettel & Gianni Profeta & Domenico Sante & Giorgio Sangiovanni & Simon Moser & Ralph Claessen, 2025. "Backscattering in topological edge states despite time-reversal symmetry," Nature Communications, Nature, vol. 16(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-63572-2
    DOI: 10.1038/s41467-025-63572-2
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    References listed on IDEAS

    as
    1. Jungpil Seo & Pedram Roushan & Haim Beidenkopf & Y. S. Hor & R. J. Cava & Ali Yazdani, 2010. "Transmission of topological surface states through surface barriers," Nature, Nature, vol. 466(7304), pages 343-346, July.
    2. Barry Bradlyn & L. Elcoro & Jennifer Cano & M. G. Vergniory & Zhijun Wang & C. Felser & M. I. Aroyo & B. Andrei Bernevig, 2017. "Topological quantum chemistry," Nature, Nature, vol. 547(7663), pages 298-305, July.
    3. Maximilian Bauernfeind & Jonas Erhardt & Philipp Eck & Pardeep K. Thakur & Judith Gabel & Tien-Lin Lee & Jörg Schäfer & Simon Moser & Domenico Di Sante & Ralph Claessen & Giorgio Sangiovanni, 2021. "Design and realization of topological Dirac fermions on a triangular lattice," Nature Communications, Nature, vol. 12(1), pages 1-8, December.
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