\begin{document}$ {\varOmega }_{{\text{pu}}}^{\text{2}} $\end{document}. In the intermediate and strong phonon-exciton coupling regime (i.e. g = Γ2 and g > Γ2), the four-wave mixing spectrum exhibits a two-peaked structure. The maximum values of these two peaks increase as \begin{document}$ {\varOmega }_{{\text{pu}}}^{\text{2}} $\end{document} increases, and their spacing is equal to 2g. Especially, for a given pumping intensity \begin{document}$ {\varOmega }_{{\text{pu}}}^{\text{2}} $\end{document} (= 10 THz2), the maximum value of the peak for g = 4 THz becomes 0.4% of that for g = 1 THz, indicating that the phonon-exciton coupling inhibits the enhancement of the four-wave mixing signal to a certain extent. Our findings can not only offer an efficient way to measure the phonon-exciton coupling strength in the bilayer graphene system, but also help one to further explore the underlying physical mechanism in such a nanosystem."> - 必威体育下载

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Citation:

    Jiang Yang-Yang, Xia Xiao-Shuang, Li Jian-Bo
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    • Abstract views:2250
    • PDF Downloads:37
    • Cited By:0
    Publishing process
    • Received Date:02 January 2023
    • Accepted Date:08 April 2023
    • Available Online:26 April 2023
    • Published Online:20 June 2023

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