\begin{document}$ f(\psi) $\end{document}, whereas the neutrino-nucleon interaction is represented by the elementary weak cross section \begin{document}$ \sigma_0 $\end{document}. The results indicate that the double-differential cross section of the scattered muon is influenced by the energy \begin{document}$ E $\end{document} and momentum \begin{document}$ {\bf{p}} $\end{document} of the nucleon in the nuclei, and the total cross section depends primarily on the incident neutrino energy \begin{document}$ E_\nu $\end{document}. Furthermore, incorporating short-range correlations results in the flux-integrated differential cross sections in the high-\begin{document}$ T_\mu $\end{document} region producing larger values, a longer tail, and achieving better experimental consistency. It eventually elucidates the physical relationship between the neutrino-nucleus scattering cross section and variation in the incident neutrino energy. This paper shares insights for the research on nucleon dynamics and presents detailed investigations of the neutrino-nucleus scattering mechanism."> Charged-current quasielastic neutrino scattering off nuclei with nucleon-nucleon short-range correlations -
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