\begin{document}$\sigma_{3n}^{\rm max}$\end{document}and \begin{document}$\sigma_{4n}^{\rm max}$\end{document}) with \begin{document}$|Q|$\end{document} for the reactions \begin{document}$^{49-47}{\rm{Ti}}+^{247-249}{\rm{Bk}}$\end{document}, \begin{document}$^{60-57}{\rm{Fe}}+^{236-239}{\rm{Np}}$\end{document}, \begin{document}$^{44-42}{\rm{Ca}}+^{252-254}{\rm{Es}}$\end{document}, and \begin{document}$^{55,54,52}{\rm{Mn}}+^{241,242,244}{\rm{Pu}}$\end{document}. With an increase in \begin{document}$|Q|$\end{document}, \begin{document}$\sigma_{3n}^{\rm max}$\end{document} and \begin{document}$\sigma_{4n}^{\rm max}$\end{document} increase. In addition, we studied the role of asymmetry and mean fissility parameters in the synthesis of the superheavy element. The obtained results in this study can be utilized in future studies."> The entrance channel effect on the synthesis of a superheavy element <sup>296</sup>119 -
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