Kinematic corrections and reconstruction methods for neutral Higgs boson decay to bb in 2HDM type-I at future lepton colliders
Abstract
In this paper, an approach for neutral Higgs bosons search is described based on 2HDM type-I at electron-positron linear colliders operating at s=1 TeV. The beam is assumed to be unpolarized and fast detector simulation is included. The signal process produces a fully hadronic final state through e+e-→ AH→ bbbb where both CP-even and CP-odd Higgs bosons (H and A) are assumed to decay to a pair of b-jets. Several benchmark scenarios are introduced as the baseline for the analysis taking mH/A in the range 150--300 GeV. In order to avoid Higgs boson conversion A ZH, Higgs boson masses are chosen with mA-mH < mZ. It is shown that with a proper kinematic correction applied on final state b-jet four momenta, true combinations of b-jets can be found for simultaneous reconstruction of both Higgs bosons through bb invariant mass calculation. Results show that observable signals can be achieved with statistical significance exceeding 5σ well before the target integrated luminosity of 8 ab-1.
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