\begin{document}$ q $\end{document}. The influence of parameter \begin{document}$ q $\end{document} on the criterion is discussed in this paper. The lower limit of the ion Mach number changes with the value of parameter \begin{document}$ q $\end{document}. The lower limit of the ion Mach number increases for \begin{document}$ q < 1 $\end{document}. And the lower limit of the ion Mach number decreases for \begin{document}$ q>1 $\end{document}. With the increase of \begin{document}$ q $\end{document}, the number of electrons with lower speed increases, ions need less kinetic energy to enter into the sheath and thus enter into the sheath more easily. Through numerical simulation, it is found that compared with the structure of the plasma magnetized sheath with Maxwell distribution (\begin{document}$ q=1 $\end{document}), the structure of the plasma magnetized sheath with super-extensive distribution (\begin{document}$ q < 1 $\end{document}) and that with sub-extensive (\begin{document}$ q>1 $\end{document}) are different, including the distribution of the space potential, the ion density, the electron density, and the space charge density. When \begin{document}$ q < 1 $\end{document}, the space potential, the electron density and the ion density fall more slowly, and the peak of the space charge density curve is closer to the wall. When \begin{document}$ q>1 $\end{document}, the space potential and the ion electron density fall faster, especially the electron density drops to zero faster, and the peak of the space charge density curve is far away from the wall. The simulation results show that the non-extensive parameter \begin{document}$ q $\end{document} has a significant influence on the structure of collisional plasma magnetized sheath. The influence of the collision on the magnetized plasma sheath with non-extensive distribution is similar to that with the Maxwell distribution. These conclusions may be useful in solving the problems of plasma boundary."> - 必威体育下载

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    Zou Xiu, Liu Hui-Ping, Zhang Xiao-Nan, Qiu Ming-Hui
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    • Abstract views:4691
    • PDF Downloads:64
    • Cited By:0
    Publishing process
    • Received Date:26 May 2020
    • Accepted Date:15 July 2020
    • Available Online:14 December 2020
    • Published Online:05 January 2021

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