Search for charged Higgs bosons through vector-like top quark pair production at the LHC

Abstract

We investigate the discovery prospects for a vector-like top partner (VLT) in the Type-II Two-Higgs-Doublet Model (2HDM-II) extended by a vector-like quark doublet (TB) at the 14~TeV LHC. The study focuses on the pair production process pp TT bH+\, bH- b(tb)\, b(tb), yielding fully hadronic final states characterized by high b-jet multiplicity. Two analysis strategies are employed, requiring at least four or five b-tagged jets (4b and 5b), to exploit the signal topology. Assuming a charged Higgs mass of mH 600~GeV and a systematic uncertainty of δ = 5\%, the 4b channel enables discovery up to mT 1200~GeV at L = 300~fb-1, while the 5b analysis extends the reach to mT 1300~GeV. At higher luminosities of 1000--3000~fb-1, the 5b strategy achieves discovery sensitivity up to mT 1400~GeV. The reach is significantly reduced as mH increases, due to the suppression of the BR(T H+ b): for mH 1000~GeV, discovery becomes unattainable across all luminosity and systematic uncertainty configurations. Sensitivity is also strongly impacted by systematic uncertainties: for δ = 10\% and mH < 1000~GeV, discovery remains viable up to mT 1200~GeV in the 5b analysis, while for δ = 20\%, no discovery is achievable for mT ≥ 1000~GeV.

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