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Quantum tunneling high-speed nano-excitonic modulator

Author

Listed:
  • Hyeongwoo Lee

    (Pohang University of Science and Technology (POSTECH))

  • Sujeong Kim

    (Pohang University of Science and Technology (POSTECH))

  • Seonhye Eom

    (Ulsan National Institute of Science and Technology (UNIST))

  • Gangseon Ji

    (Ulsan National Institute of Science and Technology (UNIST))

  • Soo Ho Choi

    (Institute for Basic Science (IBS))

  • Huitae Joo

    (Pohang University of Science and Technology (POSTECH))

  • Jinhyuk Bae

    (Pohang University of Science and Technology (POSTECH))

  • Ki Kang Kim

    (Institute for Basic Science (IBS)
    Sungkyunkwan University (SKKU))

  • Vasily Kravtsov

    (ITMO University)

  • Hyeong-Ryeol Park

    (Ulsan National Institute of Science and Technology (UNIST))

  • Kyoung-Duck Park

    (Pohang University of Science and Technology (POSTECH)
    Yonsei University)

Abstract

High-speed electrical control of nano-optoelectronic properties in two-dimensional semiconductors is a building block for the development of excitonic devices, allowing the seamless integration of nano-electronics and -photonics. Here, we demonstrate a high-speed electrical modulation of nanoscale exciton behaviors in a MoS2 monolayer at room temperature through a quantum tunneling nanoplasmonic cavity. Electrical control of tunneling electrons between Au tip and MoS2 monolayer facilitates the dynamic switching of neutral exciton- and trion-dominant states at the nanoscale. Through tip-induced spectroscopic analysis, we locally characterize the modified recombination dynamics, resulting in a significant change in the photoluminescence quantum yield. Furthermore, by obtaining a time-resolved second-order correlation function, we demonstrate that this electrically-driven nanoscale exciton-trion interconversion achieves a modulation frequency of up to 8 MHz. Our approach provides a versatile platform for dynamically manipulating nano-optoelectronic properties in the form of transformable excitonic quasiparticles, including valley polarization, recombination, and transport dynamics.

Suggested Citation

  • Hyeongwoo Lee & Sujeong Kim & Seonhye Eom & Gangseon Ji & Soo Ho Choi & Huitae Joo & Jinhyuk Bae & Ki Kang Kim & Vasily Kravtsov & Hyeong-Ryeol Park & Kyoung-Duck Park, 2024. "Quantum tunneling high-speed nano-excitonic modulator," Nature Communications, Nature, vol. 15(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-52813-5
    DOI: 10.1038/s41467-024-52813-5
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    References listed on IDEAS

    as
    1. Hyeongwoo Lee & Yeonjeong Koo & Shailabh Kumar & Yunjo Jeong & Dong Gwon Heo & Soo Ho Choi & Huitae Joo & Mingu Kang & Radwanul Hasan Siddique & Ki Kang Kim & Hong Seok Lee & Sangmin An & Hyuck Choo &, 2023. "All-optical control of high-purity trions in nanoscale waveguide," Nature Communications, Nature, vol. 14(1), pages 1-8, December.
    2. Yuan Liu & Jian Guo & Enbo Zhu & Lei Liao & Sung-Joon Lee & Mengning Ding & Imran Shakir & Vincent Gambin & Yu Huang & Xiangfeng Duan, 2018. "Approaching the Schottky–Mott limit in van der Waals metal–semiconductor junctions," Nature, Nature, vol. 557(7707), pages 696-700, May.
    3. Guangpeng Zhu & Lan Zhang & Wenfei Li & Xiuqi Shi & Zhen Zou & Qianqian Guo & Xiang Li & Weigao Xu & Jiansheng Jie & Tao Wang & Wei Du & Qihua Xiong, 2023. "Room-temperature high-speed electrical modulation of excitonic distribution in a monolayer semiconductor," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    4. Qiyao Zhang & Hao Sun & Jiacheng Tang & Xingcan Dai & Zhen Wang & Cun-Zheng Ning, 2022. "Prolonging valley polarization lifetime through gate-controlled exciton-to-trion conversion in monolayer molybdenum ditelluride," Nature Communications, Nature, vol. 13(1), pages 1-9, December.
    5. Jason S. Ross & Sanfeng Wu & Hongyi Yu & Nirmal J. Ghimire & Aaron M. Jones & Grant Aivazian & Jiaqiang Yan & David G. Mandrus & Di Xiao & Wang Yao & Xiaodong Xu, 2013. "Electrical control of neutral and charged excitons in a monolayer semiconductor," Nature Communications, Nature, vol. 4(1), pages 1-6, June.
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