Probing Type-I 2HDM light Higgs in the top-pair-associated diphoton channel
Abstract
Motivated by the possible 95 GeV diphoton excess, we investigate the capability of the Type-I Two-Higgs-Doublet Model (2HDM-I) to explain this signal under current theoretical and experimental constraints. Using full Monte Carlo (MC) simulations for the process of pp t( W+ b)t( W- b)h( γγ), we evaluate the discovery potential of a 95 GeV Higgs boson at future colliders. Direct Higgs searches strongly constrain the parameter α, excluding the region with α 0.95. Monte Carlo results indicate that a minimum cross section of 0.3 fb is required to achieve a 5σ signal statistical significance at the HL-LHC with L = 3~ab-1. For the same luminosity, HE-LHC and FCC-hh require 0.67 fb and 2.36 fb, respectively. At the 14 TeV HL-LHC with an integrated luminosity of 3~ab-1, parameter regions with (β-α) 0.4 and (β-α) 0.25 can be probed at the 5σ and 2σ significance levels, respectively. At the 27 TeV HE-LHC with L = 10~ab-1, the sensitivity improves to (β-α) 0.25 (5σ) and 0.15 (2σ). For the 100 TeV FCC-hh with L = 30~ab-1, even regions with (β-α) 0.1 or (β-α) -0.05 can be covered at the 5σ level. Parameter regions near (β-α) ≈ 0 remain challenging to probe in the diphoton channel, even with increased energy or luminosity.
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