A comprehensive study of the charged Higgs boson in the two Higgs doublet type-II seesaw model
Abstract: We investigate the phenomenology of the charged Higgs boson within the Two-Higgs-Doublet Type-II Seesaw Model (2HDMcT Type-III) at future $\mu+ \mu-$ colliders. Focusing on $2 \to 2$ processes such as $\mu+ \mu- \to H+_1 S-$ ($S- = H-_1, H-_2$) and $\mu+ \mu- \to H+_1 W-$, we incorporate both theoretical and experimental constraints to assess their production prospects. We find that $\sigma(\mu+ \mu- \to H_1+ H_1-)$ can reach or exceed the corresponding $e+ e-$ cross section, while $\sigma(\mu+ \mu- \to H_1+ H_2-)$ is roughly eighteen times smaller but can be enhanced up to 0.62 fb upon relaxing electroweak precision observables constraints. Moreover, we observe that the cross section for $\mu+ \mu- \to H+_1 W-$ is significantly enhanced due to the large $\tan\beta$ amplification characteristic of the Type-III scenario. Furthermore, we conduct a signal-background analysis and determine the discovery ($5\sigma$) regions at a 3 TeV muon collider for the $\mu+ \mu- \to H_1+ H_1-$, $\mu+ \mu- \to H_1+ H_2-$, and $\mu+ \mu- \to W\pm H_1\mp$ processes.
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