Searching for Charged Higgs Bosons via e+e−→ H+H−→ overline{c}boverline{c}b at Linear Colliders

Abstract

We study a search for the charged Higgs boson via e+e−→ H+H−→ overline{c}boverline{c}b at the 500 GeV ILC. In a general two Higgs doublet model without Z2 symmetry, extra Yukawa couplings ρtt and ρtc can drive baryogenesis, but searches at the HL-LHC may still go empty-handed if the couplings are relatively weak. Taking {m}_{H^{+}} ≃ mH ≃ mA ≃ 200 GeV, with ρtt, ρtc ∼ 0.1 and no h(125)-H mixing, H+ → coverline{b} decay is dominant, and the overline{c}boverline{c}b final state is likely overwhelmed by QCD background at the LHC. We show that the electroweak production of H+H− at the ILC is discoverable with integrated luminosity of 1 ab−1. Furthermore, we show that {m}_{H^{+}} can be extracted by requiring the two pairs of b and light jets be roughly equal in mass, without assuming the mass value. Thus, ILC can probe low mass Higgs bosons in multijet final states to complement HL-LHC in the future.