Capability of future linear colliders to discover heavy neutral CP-even and CP-odd Higgs bosons within Type-I 2HDM

Abstract

In this study, assuming the type-I 2HDM at SM-like scenario, observability of heavy neutral CP-even and CP-odd Higgs bosons H and A at a linear collider operating at s=1 TeV is investigated through the signal process chain e- e+ → A H → ZHH where the Z boson experiences a leptonic (e-e+ or μ-μ+) decay and the H Higgs boson is assumed to decay into a di-photon. This signal process is motivated especially by the clean signature which leptonic and photonic events can provide at colliders, and also by the enhancement due to the charged Higgs-mediated contribution to H di-photon decay at large β values. Simulation is based on four benchmark points according to which the Higgs mass mH (mA) varies within the range 150-300 (200-400) GeV. Energy smearing of jets and photons are performed, and momentum smearing is also applied to leptons. Results indicate that, for all of the assumed benchmark points, the Higgs bosons H and A are observable with measurable masses, and with signals exceeding 5σ at integrated luminosities 111 and 201\,fb-1 respectively. Such luminosities are easily accessible to future linear colliders.