Searching for charged Higgs bosons in top decays via the t*b channel

Abstract

Rare top-quark decays offer a sensitive probe of charged Higgs bosons with masses below the top mass, owing to the large t t production rate at the LHC and the distinctive final states involving leptons and b-jets. While existing searches target the H τν, cs, and cb modes, the decay H tb has been studied only for heavier charged Higgs bosons with an on-shell top quark in the final state. The low-mass off-shell channel H t*b therefore remains essentially unconstrained, even though it can become the dominant decay mode below the top-quark threshold owing to the large top Yukawa coupling. We study charged-Higgs production from the rare top decay t H b, followed by the decay H t*b. Top-antitop production and decay hence give rise to a t t b b-like final state, which we constrain by reinterpreting recent ATLAS fiducial measurements in dileptonic events. We obtain model-independent limits of 1.9%-2.9% on the product of branching ratios Br(t H b)× Br(H t*b) for charged-Higgs masses between 110 and 165 GeV, and interpret these bounds in several two-Higgs-doublet scenarios. While dedicated searches for conventional charged-Higgs decays dominate for canonical Z2-symmetric models, the t*b reinterpretation becomes competitive near the top-quark threshold in the up-type aligned limit and provides relevant direct constraint in a top-philic scenario. In the top-specific Two-Higgs-Doublet Model, it additionally excludes a low-β region not covered by conventional searches. These results thus establish t t production with additional b-jets as a complementary probe of light charged Higgs bosons and nonstandard top-quark decays, and motivate dedicated analyses by the LHC collaborations.

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