Doubly charged Higgs production within the Higgs triplet model at future electron-positron colliders

Abstract

We investigate in detail the discovery potential of the doubly charged Higgs boson at the Compact Linear Collider in e-e-, e-γ, γγ, and e+e- collision modes, within the Higgs triplet model at two extreme benchmark points as representatives of the Yukawa-like and gauge-like regions. In the Yukawa-like region, the most promising production mechanism is the single production via e-e- and e-γ collisions. Given the subsequent decay of the doubly charged Higgs into a same-sign lepton pair, CLIC can achieve statistical significance well beyond the discovery threshold, within the parameter space permitted by experimental constraints. In the gauge-like region, with the ^ + ≥ 3j final state, CLIC exhibits robust discovery potential for the doubly charged Higgs boson, up to a mass of approximately 1.2~TeV. We also investigate the search for doubly charged Higgs at the HL-LHC. Our results demonstrate that CLIC possesses greater advantages and offers superior discovery potential for the doubly charged Higgs boson, compared to the HL-LHC.