\begin{document}$\varepsilon$\end{document} on the stability area and synchronization time is analyzed. The results show that with the increase of the coupling strength \begin{document}$\varepsilon$\end{document} or the increase of the system size N, the coupling force between particles increases, and the orderliness of the system increases, so that the stable region gradually increases and the synchronization time gradually decreases. Secondly, the stochastic resonance behavior of the system is studied. Noises provide randomness for the system, and coupling forces provide orderliness for the system. The two compete with each other, so that the system outputs about the noise intensity \begin{document}$\sigma$\end{document}, the coupling strength \begin{document}$\varepsilon$\end{document} and the system size N exhibit stochastic resonance behavior. As the coupling strength increases or the system size increases, the orderliness of the system increases, and greater noise intensity is required to provide stronger randomness to achieve optimal matching with it, so as to the resonance of the noise intensity \begin{document}$\sigma$\end{document}, the peak gradually shifts to the right. Conversely, as the noise intensity \begin{document}$\sigma$\end{document} increases, the resonance peak of the coupling strength \begin{document}$\varepsilon$\end{document} and the system size N will also shift to the right."> - 必威体育下载

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Citation:

    Jiang Lei, Lai Li, Yu Tao, Luo Mao-Kang
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    • Abstract views:4144
    • PDF Downloads:93
    • Cited By:0
    Publishing process
    • Received Date:24 January 2021
    • Accepted Date:13 February 2021
    • Available Online:23 June 2021
    • Published Online:05 July 2021

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