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Revealing topology in metals using experimental protocols inspired by K-theory

Author

Listed:
  • Wenting Cheng

    (New Jersey Institute of Technology)

  • Alexander Cerjan

    (Sandia National Laboratories)

  • Ssu-Ying Chen

    (New Jersey Institute of Technology)

  • Emil Prodan

    (Yeshiva University)

  • Terry A. Loring

    (University of New Mexico)

  • Camelia Prodan

    (New Jersey Institute of Technology)

Abstract

Topological metals are conducting materials with gapless band structures and nontrivial edge-localized resonances. Their discovery has proven elusive because traditional topological classification methods require band gaps to define topological robustness. Inspired by recent theoretical developments that leverage techniques from the field of C∗-algebras to identify topological metals, here, we directly observe topological phenomena in gapless acoustic crystals and realize a general experimental technique to demonstrate their topology. Specifically, we not only observe robust boundary-localized states in a topological acoustic metal, but also re-interpret a composite operator—mathematically derived from the K-theory of the problem—as a new Hamiltonian whose physical implementation allows us to directly observe a topological spectral flow and measure the topological invariants. Our observations and experimental protocols may offer insights for discovering topological behaviour across a wide array of artificial and natural materials that lack bulk band gaps.

Suggested Citation

  • Wenting Cheng & Alexander Cerjan & Ssu-Ying Chen & Emil Prodan & Terry A. Loring & Camelia Prodan, 2023. "Revealing topology in metals using experimental protocols inspired by K-theory," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-38862-2
    DOI: 10.1038/s41467-023-38862-2
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    References listed on IDEAS

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    1. 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.
    2. Hoi Chun Po & Ashvin Vishwanath & Haruki Watanabe, 2017. "Erratum: Symmetry-based indicators of band topology in the 230 space groups," Nature Communications, Nature, vol. 8(1), pages 1-1, December.
    3. Xiang Ni & Mengyao Li & Matthew Weiner & Andrea Alù & Alexander B. Khanikaev, 2020. "Demonstration of a quantized acoustic octupole topological insulator," Nature Communications, Nature, vol. 11(1), pages 1-7, December.
    4. Marc Serra-Garcia & Valerio Peri & Roman Süsstrunk & Osama R. Bilal & Tom Larsen & Luis Guillermo Villanueva & Sebastian D. Huber, 2018. "Observation of a phononic quadrupole topological insulator," Nature, Nature, vol. 555(7696), pages 342-345, March.
    5. Hoi Chun Po & Ashvin Vishwanath & Haruki Watanabe, 2017. "Symmetry-based indicators of band topology in the 230 space groups," Nature Communications, Nature, vol. 8(1), pages 1-9, December.
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    Cited by:

    1. Biye Xie & Renwen Huang & Shiyin Jia & Zemeng Lin & Junzheng Hu & Yao Jiang & Shaojie Ma & Peng Zhan & Minghui Lu & Zhenlin Wang & Yanfeng Chen & Shuang Zhang, 2023. "Bulk-local-density-of-state correspondence in topological insulators," Nature Communications, Nature, vol. 14(1), pages 1-8, December.

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