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Thermodynamic behavior of correlated electron-hole fluids in van der Waals heterostructures

Author

Listed:
  • Ruishi Qi

    (University of California
    Lawrence Berkeley National Laboratory)

  • Andrew Y. Joe

    (University of California
    Lawrence Berkeley National Laboratory)

  • Zuocheng Zhang

    (University of California)

  • Yongxin Zeng

    (University of Texas at Austin)

  • Tiancheng Zheng

    (University of California
    University of Chinese Academy of Sciences)

  • Qixin Feng

    (University of California
    Lawrence Berkeley National Laboratory)

  • Jingxu Xie

    (Lawrence Berkeley National Laboratory
    University of California at Berkeley)

  • Emma Regan

    (University of California
    Lawrence Berkeley National Laboratory
    University of California at Berkeley)

  • Zheyu Lu

    (Lawrence Berkeley National Laboratory
    University of California at Berkeley)

  • Takashi Taniguchi

    (National Institute for Materials Science)

  • Kenji Watanabe

    (National Institute for Materials Science)

  • Sefaattin Tongay

    (Arizona State University)

  • Michael F. Crommie

    (University of California
    Lawrence Berkeley National Laboratory)

  • Allan H. MacDonald

    (University of Texas at Austin)

  • Feng Wang

    (University of California
    Lawrence Berkeley National Laboratory
    University of California Berkeley and Lawrence Berkeley National Laboratory)

Abstract

Coupled two-dimensional electron-hole bilayers provide a unique platform to study strongly correlated Bose-Fermi mixtures in condensed matter. Electrons and holes in spatially separated layers can bind to form interlayer excitons, composite Bosons expected to support high-temperature exciton condensates. The interlayer excitons can also interact strongly with excess charge carriers when electron and hole densities are unequal. Here, we use optical spectroscopy to quantitatively probe the local thermodynamic properties of strongly correlated electron-hole fluids in MoSe2/hBN/WSe2 heterostructures. We observe a discontinuity in the electron and hole chemical potentials at matched electron and hole densities, a definitive signature of an excitonic insulator ground state. The excitonic insulator is stable up to a Mott density of ~0.8 × 1012 cm−2 and has a thermal ionization temperature of ~70 K. The density dependence of the electron, hole, and exciton chemical potentials reveals strong correlation effects across the phase diagram. Compared with a non-interacting uniform charge distribution, the correlation effects lead to significant attractive exciton-exciton and exciton-charge interactions in the electron-hole fluid. Our work highlights the unique quantum behavior that can emerge in strongly correlated electron-hole systems.

Suggested Citation

  • Ruishi Qi & Andrew Y. Joe & Zuocheng Zhang & Yongxin Zeng & Tiancheng Zheng & Qixin Feng & Jingxu Xie & Emma Regan & Zheyu Lu & Takashi Taniguchi & Kenji Watanabe & Sefaattin Tongay & Michael F. Cromm, 2023. "Thermodynamic behavior of correlated electron-hole fluids in van der Waals heterostructures," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-43799-7
    DOI: 10.1038/s41467-023-43799-7
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    References listed on IDEAS

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