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Dielectric catastrophe at the Wigner-Mott transition in a moiré superlattice

Author

Listed:
  • Yanhao Tang

    (Cornell University
    Zhejiang University)

  • Jie Gu

    (Cornell University)

  • Song Liu

    (Columbia University)

  • Kenji Watanabe

    (National Institute for Materials Science)

  • Takashi Taniguchi

    (National Institute for Materials Science)

  • James C. Hone

    (Columbia University)

  • Kin Fai Mak

    (Cornell University
    Cornell University
    Kavli Institute at Cornell for Nanoscale Science)

  • Jie Shan

    (Cornell University
    Cornell University
    Kavli Institute at Cornell for Nanoscale Science)

Abstract

The bandwidth-tuned Wigner-Mott transition is an interaction-driven phase transition from a generalized Wigner crystal to a Fermi liquid. Because the transition is generally accompanied by both magnetic and charge-order instabilities, it remains unclear if a continuous Wigner-Mott transition exists. Here, we demonstrate bandwidth-tuned metal-insulator transitions at fixed fractional fillings of a MoSe2/WS2 moiré superlattice. The bandwidth is controlled by an out-of-plane electric field. The dielectric response is probed optically with the 2s exciton in a remote WSe2 sensor layer. The exciton spectral weight is negligible for the metallic state with a large negative dielectric constant. It continuously vanishes when the transition is approached from the insulating side, corresponding to a diverging dielectric constant or a ‘dielectric catastrophe’ driven by the critical charge dynamics near the transition. Our results support the scenario of continuous Wigner-Mott transitions in two-dimensional triangular lattices and stimulate future explorations of exotic quantum phases in their vicinities.

Suggested Citation

  • Yanhao Tang & Jie Gu & Song Liu & Kenji Watanabe & Takashi Taniguchi & James C. Hone & Kin Fai Mak & Jie Shan, 2022. "Dielectric catastrophe at the Wigner-Mott transition in a moiré superlattice," Nature Communications, Nature, vol. 13(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-32037-1
    DOI: 10.1038/s41467-022-32037-1
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