\begin{document}$n\leqslant 2$\end{document}, \begin{document}$l\leqslant 7$\end{document}. Furthermore, the dependence of the Hamiltonian on the magnetic field and total momentum is analytically determined to be \begin{document}$H=H_0+(qB)^2 H_1+qBP_{{\rm{ps}},\perp} H_2$\end{document}. Therefore, only the coefficient matrices \begin{document}$H_{1}$\end{document} and \begin{document}$H_{2}$\end{document} need to be numerically calculated once and the Hamiltonian with arbitrary magnetic field and momentum can be determined. The inverse power method is then used to find the lowest eigenvalue in the angular momentum space. Such a numerical method significantly reduces the amount of calculation and still ensures the accuracy of the calculation as well. The calculation results show that as the magnetic field and the total momentum increase, the mass of the charm element increases. The increase of the mass can be as large as \begin{document}$20\%$\end{document}, when we take \begin{document}$eB = 20 m_{\rm{\pi}}^2$\end{document} and \begin{document}$P_{{\rm{ps}}}=1.8 \;{\rm{GeV }}$\end{document}, which can be easily achieved in RHIC collisions. Therefore there should exist significant magnetic effect on the \begin{document}$J/\psi$\end{document} production in heavy ion collisions."> - 必威体育下载

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Citation:

Gong Chuang, Guo Xing-Yu
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  • Abstract views:4018
  • PDF Downloads:70
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Publishing process
  • Received Date:04 February 2021
  • Accepted Date:13 April 2021
  • Available Online:07 June 2021
  • Published Online:05 September 2021

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