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Twist-angle engineering of excitonic quantum interference and optical nonlinearities in stacked 2D semiconductors

Author

Listed:
  • Kai-Qiang Lin

    (University of Regensburg)

  • Paulo E. Faria Junior

    (University of Regensburg)

  • Jonas M. Bauer

    (University of Regensburg)

  • Bo Peng

    (University of Cambridge)

  • Bartomeu Monserrat

    (University of Cambridge
    University of Cambridge)

  • Martin Gmitra

    (Pavol Jozef Šafárik University)

  • Jaroslav Fabian

    (University of Regensburg)

  • Sebastian Bange

    (University of Regensburg)

  • John M. Lupton

    (University of Regensburg)

Abstract

Twist-engineering of the electronic structure in van-der-Waals layered materials relies predominantly on band hybridization between layers. Band-edge states in transition-metal-dichalcogenide semiconductors are localized around the metal atoms at the center of the three-atom layer and are therefore not particularly susceptible to twisting. Here, we report that high-lying excitons in bilayer WSe2 can be tuned over 235 meV by twisting, with a twist-angle susceptibility of 8.1 meV/°, an order of magnitude larger than that of the band-edge A-exciton. This tunability arises because the electronic states associated with upper conduction bands delocalize into the chalcogenide atoms. The effect gives control over excitonic quantum interference, revealed in selective activation and deactivation of electromagnetically induced transparency (EIT) in second-harmonic generation. Such a degree of freedom does not exist in conventional dilute atomic-gas systems, where EIT was originally established, and allows us to shape the frequency dependence, i.e., the dispersion, of the optical nonlinearity.

Suggested Citation

  • Kai-Qiang Lin & Paulo E. Faria Junior & Jonas M. Bauer & Bo Peng & Bartomeu Monserrat & Martin Gmitra & Jaroslav Fabian & Sebastian Bange & John M. Lupton, 2021. "Twist-angle engineering of excitonic quantum interference and optical nonlinearities in stacked 2D semiconductors," Nature Communications, Nature, vol. 12(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-21547-z
    DOI: 10.1038/s41467-021-21547-z
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    Cited by:

    1. Kai-Qiang Lin & Jonas D. Ziegler & Marina A. Semina & Javid V. Mamedov & Kenji Watanabe & Takashi Taniguchi & Sebastian Bange & Alexey Chernikov & Mikhail M. Glazov & John M. Lupton, 2022. "High-lying valley-polarized trions in 2D semiconductors," Nature Communications, Nature, vol. 13(1), pages 1-8, December.

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