Charming top interactions with a neutral Higgs Boson decaying into τ+ τ- at the LHC
Abstract
We investigate the discovery potential of flavor changing neutral Higgs (FCNH) interactions in top quark decays at the LHC. A general two Higgs doublet model (2HDM) is adopted to study the top quark decay t c φ0, where φ0 is either a CP-even heavy neutral scalar (H0), or a CP-odd pseudoscalar (A0), followed by the Higgs boson decaying into τ+τ-. The complete process is pp tt t cφ0 (bjj) (cτlepτhad) +X, where t or t become virtual when mφ > mt -mc, τlep and τhad represent the τ leptonic decay (τ + MET) and the τ hadronic decay (τ jτ + MET), respectively. We evaluate the cross section applying realistic selection criteria for the FCNH signal and the dominant physics background at the parton-level. In addition, we employ MadGraph, Pythia~8, and Delphes to perform a realistic event-level Monte Carlo simulation analysis. The collinear approximation is applied since the τ's from Higgs boson decays are highly boosted such that τlep and τhad momenta are approximately in the same direction as the τ's, which enables the reconstruction of the Higgs boson mass. The energy of the charm quark provides an additional kinematic variable that discriminates the signal from the background. In the alignment limit, the FCNH couplings for the heavy Higgs bosons (H0 and A0) will not be suppressed [λtcH (β-α) ≈ 1]. We study the discovery potential for the heavy neutral Higgs bosons at the LHC with collider energies of s = 13 TeV, 13.6 TeV and 14 TeV, and find the High-Luminosity LHC offers great promise for the discovery of heavier Higgs bosons from t c φ0 or t* c φ0.
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