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    Nonlinear valley phonon scattering under the strong coupling regime

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    Type
    Article
    Authors
    Liu, Xiaoze
    Yi, Jun
    Yang, Sui
    Lin, Erh-Chen
    Zhang, Yue-Jiao
    Zhang, Peiyao
    Li, Jian-Feng
    Wang, Yuan
    Lee, Yi-Hsien
    Tian, Zhong-Qun
    Zhang, Xiang
    KAUST Grant Number
    OSR-2016-CRG5-2996
    Date
    2021-04-12
    Online Publication Date
    2021-04-12
    Print Publication Date
    2021-09
    Embargo End Date
    2021-10-12
    Permanent link to this record
    http://hdl.handle.net/10754/668813
    
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    Abstract
    Research efforts of cavity quantum electrodynamics have focused on the manipulation of matter hybridized with photons under the strong coupling regime1,2,3. This has led to striking discoveries including polariton condensation2 and single-photon nonlinearity3, where the phonon scattering plays a critical role1,2,3,4,5,6,7,8,9. However, resolving the phonon scattering remains challenging for its non-radiative complexity. Here we demonstrate nonlinear phonon scattering in monolayer MoS2 that is strongly coupled to a plasmonic cavity mode. By hybridizing excitons and cavity photons, the phonon scattering is equipped with valley degree of freedom and boosted with superlinear enhancement to a stimulated regime, as revealed by Raman spectroscopy and our theoretical model. The valley polarization is drastically enhanced and sustained throughout the stimulated regime, suggesting a coherent scattering process enabled by the strong coupling. Our findings clarify the feasibility of valley–cavity-based systems for lighting, imaging, optical information processing and manipulating quantum correlations in cavity quantum electrodynamics2,3,10,11,12,13,14,15,16,17.
    Citation
    Liu, X., Yi, J., Yang, S., Lin, E.-C., Zhang, Y.-J., Zhang, P., … Zhang, X. (2021). Nonlinear valley phonon scattering under the strong coupling regime. Nature Materials. doi:10.1038/s41563-021-00972-x
    Sponsors
    This work was supported by the King Abdullah University of Science and Technology Office of Sponsored Research award OSR-2016-CRG5-2996, National Science Foundation MRI grant 1725335 and the Ernest S. Kuh Endowed Chair Professorship. X.L. also acknowledges support from the National Natural Science Foundation of China (grant nos 12074297 and 62005202). J.-F.L. acknowledges support from National Natural Science Foundation of China (grant no. 21925404) and National Key Research and Development Program of China (2019YFA0705400). Y.-H.L. acknowledges support from the Ministry of Science and Technology (MoST 109-2124-M-007-001-MY3; 108-2112-M-007-006-MY3; 107-2923-M-007-002-MY3), the Frontier Research Center on Fundamental and Applied Sciences of Matters and the Center for Quantum Technology of National Tsing-Hua University.
    Publisher
    Springer Nature
    Journal
    Nature Materials
    DOI
    10.1038/s41563-021-00972-x
    Additional Links
    http://www.nature.com/articles/s41563-021-00972-x
    ae974a485f413a2113503eed53cd6c53
    10.1038/s41563-021-00972-x
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