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Local microwave sensing of excitons and their electrical environment

Author

Listed:
  • Zhurun Ji

    (Stanford University
    Stanford University
    Stanford University
    SLAC National Accelerator Laboratory)

  • Mark E. Barber

    (Stanford University
    Stanford University
    Stanford University
    SLAC National Accelerator Laboratory)

  • Ziyan Zhu

    (SLAC National Accelerator Laboratory)

  • Carlos R. Kometter

    (Stanford University
    Stanford University)

  • Jiachen Yu

    (Stanford University
    Stanford University)

  • Kenji Watanabe

    (National Institute for Materials Science
    National Institute for Materials Science)

  • Takashi Taniguchi

    (National Institute for Materials Science
    National Institute for Materials Science)

  • Mengkun Liu

    (Stony Brook University
    Brookhaven National Laboratory)

  • Thomas P. Devereaux

    (Stanford University
    SLAC National Accelerator Laboratory
    Stanford University)

  • Benjamin E. Feldman

    (Stanford University
    Stanford University
    SLAC National Accelerator Laboratory)

  • Zhixun Shen

    (Stanford University
    Stanford University
    Stanford University
    SLAC National Accelerator Laboratory)

Abstract

Excitons in atomically thin transition metal dichalcogenides (TMDs) possess intriguing optical properties, drawing interest for both technology and fundamental research. However, as the demands for nanodevice applications and the exploration of fundamental physics push toward smaller, subwavelength scales, studying them locally is challenging. In this work, we introduce a cryogenic scanning probe photoelectrical sensing technique, termed exciton-resonant microwave impedance microscopy (ER-MIM), to measure the excitonic responses in a monolayer MoSe2 device at 1.5K. From the microwave signal changes, we identify exciton polarons and their Rydberg states. Building on these observations, we systemically reveal the local and nonlocal effects of carrier density, inhomogeneous electric fields, as well as dielectric screening on excitons, beyond the reach of conventional probes. By further integrating deep learning techniques, we precisely extracted the electrical parameters surrounding excitons, demonstrating a quantified, exciton-assisted nanoscale electrometry. Our results provide new insight into exciton-environment interactions, establish ER-MIM as a powerful optoelectronic sensing platform, and open avenues for exciton-based quantum control and device technologies.

Suggested Citation

  • Zhurun Ji & Mark E. Barber & Ziyan Zhu & Carlos R. Kometter & Jiachen Yu & Kenji Watanabe & Takashi Taniguchi & Mengkun Liu & Thomas P. Devereaux & Benjamin E. Feldman & Zhixun Shen, 2025. "Local microwave sensing of excitons and their electrical environment," Nature Communications, Nature, vol. 16(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-64280-7
    DOI: 10.1038/s41467-025-64280-7
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