Probing Heavy Neutral Higgs Bosons via Single Vector-Like Bottom Quark Production at the HL-LHC
Abstract
We investigate the discovery prospects of a singly produced vector-like bottom quark in the Type-II Two-Higgs-Doublet Model extended by an SU(2)L vector-like (T,B) doublet. We focus on the non-standard decay chain B φ b, followed by φ tt, where φ = H or A, leading to a final state with one charged lepton, missing transverse energy, and multiple b-jets. We perform a full simulation of both signal and Standard Model backgrounds at s=14 TeV. We show that the exotic channels B φ b can dominate over the conventional decay modes, reaching branching ratios of order 50\% for both neutral scalars in the alignment limit. A conventional cut-based analysis provides a 5σ discovery significance only at sufficiently high integrated luminosity. By contrast, an XGBoost-based multivariate analysis substantially improves the signal-background discrimination and extends the discovery reach up to mB 1.3 TeV with 600~fb-1 and up to mB 1.6 TeV with 3~ab-1, even in the presence of systematic uncertainties as large as 15\%.
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