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Berry curvature contributions of kagome-lattice fragments in amorphous Fe–Sn thin films

Author

Listed:
  • Kohei Fujiwara

    (Tohoku University)

  • Yasuyuki Kato

    (University of Tokyo)

  • Hitoshi Abe

    (High Energy Accelerator Research Organization (KEK)
    SOKENDAI (Graduate University of Advanced Studies)
    Ibaraki University)

  • Shun Noguchi

    (Tohoku University)

  • Junichi Shiogai

    (Tohoku University
    Osaka University)

  • Yasuhiro Niwa

    (High Energy Accelerator Research Organization (KEK)
    SOKENDAI (Graduate University of Advanced Studies))

  • Hiroshi Kumigashira

    (High Energy Accelerator Research Organization (KEK)
    Tohoku University)

  • Yukitoshi Motome

    (University of Tokyo)

  • Atsushi Tsukazaki

    (Tohoku University
    Tohoku University)

Abstract

Amorphous semiconductors are widely applied to electronic and energy-conversion devices owing to their high performance and simple fabrication processes. The topological concept of the Berry curvature is generally ill-defined in amorphous solids, due to the absence of long-range crystalline order. Here, we demonstrate that the Berry curvature in the short-range crystalline order of kagome-lattice fragments effectively contributes to the anomalous electrical and magneto-thermoelectric properties in Fe–Sn amorphous films. The Fe–Sn films on glass substrates exhibit large anomalous Hall and Nernst effects comparable to those of the single crystals of topological semimetals Fe3Sn2 and Fe3Sn. With modelling, we reveal that the Berry curvature contribution in the amorphous state likely originates from randomly distributed kagome-lattice fragments. This microscopic interpretation sheds light on the topology of amorphous materials, which may lead to the realization of functional topological amorphous electronic devices.

Suggested Citation

  • Kohei Fujiwara & Yasuyuki Kato & Hitoshi Abe & Shun Noguchi & Junichi Shiogai & Yasuhiro Niwa & Hiroshi Kumigashira & Yukitoshi Motome & Atsushi Tsukazaki, 2023. "Berry curvature contributions of kagome-lattice fragments in amorphous Fe–Sn thin films," Nature Communications, Nature, vol. 14(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-39112-1
    DOI: 10.1038/s41467-023-39112-1
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    1. Linda Ye & Mingu Kang & Junwei Liu & Felix von Cube & Christina R. Wicker & Takehito Suzuki & Chris Jozwiak & Aaron Bostwick & Eli Rotenberg & David C. Bell & Liang Fu & Riccardo Comin & Joseph G. Che, 2018. "Massive Dirac fermions in a ferromagnetic kagome metal," Nature, Nature, vol. 555(7698), pages 638-642, March.
    2. Akito Sakai & Susumu Minami & Takashi Koretsune & Taishi Chen & Tomoya Higo & Yangming Wang & Takuya Nomoto & Motoaki Hirayama & Shinji Miwa & Daisuke Nishio-Hamane & Fumiyuki Ishii & Ryotaro Arita & , 2020. "Iron-based binary ferromagnets for transverse thermoelectric conversion," Nature, Nature, vol. 581(7806), pages 53-57, May.
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