\begin{document}$ \alpha N_p+\beta N_n $\end{document}, is chosen to tackle this shell correction, in which \begin{document}$ N_p $\end{document} and \begin{document}$ N_n $\end{document} are the valence proton and neutron numbers with respect to the nearest shell closure, respectively. The mass differences of mirror nuclei, as the sum of the empirical Coulomb displacement energy and shell effect correction, are then used to obtain the binding energies of proton-rich nuclei through the available data of their mirror partners to explore the proton dripline of the nuclear chart."> Binding energies of proton-rich nuclei determined from their mirror pairs -
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