Constraining A ZH with H t t in the Low-Mass Region

Abstract

The decay A ZH is a characteristic signal of two-Higgs-doublet models (2HDMs), where A and H lie primarily within the same SU(2)L multiplet, leading to a coupling of order g2 to the Z boson. The subsequent decay H tt(*) is particularly promising, as it gives rise to distinct final states involving multiple leptons and b-jets. The required splitting between mA and mH can naturally occur near the electroweak scale while being consistent with perturbative unitarity. Whereas dedicated ATLAS and CMS searches focused on the region with both top-quarks on-shell, we cover lower masses where one top quark is off-shell by recasting Standard Model ttZ measurements of ATLAS and CMS. The obtained limits on σ(A ZH)× Br (H t t) are between 0.12 pb and 0.62 pb. Interestingly, we observe these stringent limits despite a preference (up to 2.5σ) for a non-zero new physics signal, most pronounced around for mA ≈ 450-460 GeV and mH≈ 290 GeV, with a best-fit value of σ(A ZH) × Br(H t t) ≈ 0.3 pb. This cross section can be accommodated within a top-philic 2HDM for a top-Yukawa coupling of the second Higgs doublet of μt 0.16.

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