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Chemical switching of low-loss phonon polaritons in α-MoO3 by hydrogen intercalation

Author

Listed:
  • Yingjie Wu

    (Monash University)

  • Qingdong Ou

    (Monash University)

  • Yuefeng Yin

    (Monash University)

  • Yun Li

    (Monash University)

  • Weiliang Ma

    (Chinese Academy of Sciences)

  • Wenzhi Yu

    (Monash University)

  • Guanyu Liu

    (Jinan University)

  • Xiaoqiang Cui

    (Jilin University)

  • Xiaozhi Bao

    (University of Macau)

  • Jiahua Duan

    (Universidad de Oviedo
    Center of Research on Nanomaterials and Nanotechnology, CINN (CSIC-Universidad de Oviedo))

  • Gonzalo Álvarez-Pérez

    (Universidad de Oviedo
    Center of Research on Nanomaterials and Nanotechnology, CINN (CSIC-Universidad de Oviedo))

  • Zhigao Dai

    (Monash University)

  • Babar Shabbir

    (Monash University)

  • Nikhil Medhekar

    (Monash University)

  • Xiangping Li

    (Jinan University)

  • Chang-Ming Li

    (Qingdao University)

  • Pablo Alonso-González

    (Universidad de Oviedo
    Center of Research on Nanomaterials and Nanotechnology, CINN (CSIC-Universidad de Oviedo))

  • Qiaoliang Bao

    (Monash University)

Abstract

Phonon polaritons (PhPs) have attracted significant interest in the nano-optics communities because of their nanoscale confinement and long lifetimes. Although PhP modification by changing the local dielectric environment has been reported, controlled manipulation of PhPs by direct modification of the polaritonic material itself has remained elusive. Here, chemical switching of PhPs in α-MoO3 is achieved by engineering the α-MoO3 crystal through hydrogen intercalation. The intercalation process is non-volatile and recoverable, allowing reversible switching of PhPs while maintaining the long lifetimes. Precise control of the intercalation parameters enables analysis of the intermediate states, in which the needle-like hydrogenated nanostructures functioning as in-plane antennas effectively reflect and launch PhPs and form well-aligned cavities. We further achieve spatially controlled switching of PhPs in selective regions, leading to in-plane heterostructures with various geometries. The intercalation strategy introduced here opens a relatively non-destructive avenue connecting infrared nanophotonics, reconfigurable flat metasurfaces and van der Waals crystals.

Suggested Citation

  • Yingjie Wu & Qingdong Ou & Yuefeng Yin & Yun Li & Weiliang Ma & Wenzhi Yu & Guanyu Liu & Xiaoqiang Cui & Xiaozhi Bao & Jiahua Duan & Gonzalo Álvarez-Pérez & Zhigao Dai & Babar Shabbir & Nikhil Medheka, 2020. "Chemical switching of low-loss phonon polaritons in α-MoO3 by hydrogen intercalation," Nature Communications, Nature, vol. 11(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-16459-3
    DOI: 10.1038/s41467-020-16459-3
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    Cited by:

    1. Jiangtao Lv & Yingjie Wu & Jingying Liu & Youning Gong & Guangyuan Si & Guangwei Hu & Qing Zhang & Yupeng Zhang & Jian-Xin Tang & Michael S. Fuhrer & Hongsheng Chen & Stefan A. Maier & Cheng-Wei Qiu &, 2023. "Hyperbolic polaritonic crystals with configurable low-symmetry Bloch modes," Nature Communications, Nature, vol. 14(1), pages 1-8, December.
    2. Neda Alsadat Aghamiri & Guangwei Hu & Alireza Fali & Zhen Zhang & Jiahan Li & Sivacarendran Balendhran & Sumeet Walia & Sharath Sriram & James H. Edgar & Shriram Ramanathan & Andrea Alù & Yohannes Aba, 2022. "Reconfigurable hyperbolic polaritonics with correlated oxide metasurfaces," Nature Communications, Nature, vol. 13(1), pages 1-9, December.

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