\begin{document}$pp\to W^{\pm *}W^{\pm *}jj \to H^\pm H^\pm jj$\end{document} with the leptonic decay mode \begin{document}$ H^\pm \to HW^\pm (\to l^\pm \nu)$\end{document}, where H represents the dark matter candidate. We investigate the testability of this signal at the high-luminosity LHC (HL-LHC) and the proposed 27 TeV high-energy LHC (HE-LHC). According to our simulation, the HL-LHC with \begin{document}${\cal{L}}=3\;{\rm{ab}}^{-1}$\end{document} can barely probe this signal. Meanwhile, for the HE-LHC with \begin{document}${\cal{L}}=15\;{\rm{ab}}^{-1}$\end{document}, it is promising to obtain a \begin{document}$5\sigma$\end{document} significance when \begin{document}$250\;{\rm{GeV}}\lesssim m_{H^\pm}-m_H\lesssim 300$\end{document} GeV with dark matter mass \begin{document}$m_H\sim 60$\end{document} or 71 GeV."> Same-Sign Dilepton Signature in the Inert Doublet Model -
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