Investigation of Charged Higgs Bosons Production from Vector-Like T Quark Decays at eγ Collider

Abstract

Within the extended framework of the Two-Higgs-Doublet Model Type II (2HDM-II), enhanced by a vector-like quark (VLQ) doublet TB, we present a comprehensive analysis of the process e-γ → beT at future high-energy eγ colliders, focusing on the decays T → H- b and H- → tb. Using current theoretical and experimental constraints, we calculate production cross sections for both unpolarized and polarized beams at center-of-mass energies of s = 2 and 3 TeV, demonstrating that polarized beams significantly enhance detection prospects by increasing production rates. By analyzing kinematic distributions, we establish optimized selection criteria to effectively separate signal events from background. At s = 2 TeV with an integrated luminosity of 1500 fb-1, we find exclusion regions within sRd∈[0.085,0.16] for mT∈ [1000,1260] GeV and a discovery potential within sRd∈[0.14,0.17] for mT∈[1000,1100] GeV, with these regions expanding to sRd∈ [0.05,0.15] for mT∈[1000,1340] GeV and sRd ∈ [0.11, 0.17] for mT∈[1000,1160] GeV at 3000 fb-1. At s = 3 TeV and 1500 fb-1, we identify exclusion regions of sRd∈[0.055,0.135] for mT ∈ [1000, 1640] GeV and discovery regions of sRd ∈ [0.09, 0.15] for mT ∈ [1000, 1400] GeV, which further expand to sRd ∈ [0.028, 0.12] for mT∈[1000,1970] GeV and sRd ∈[0.04,0.122] for mT∈[1000,1760] GeV at 3000 fb-1. Our findings emphasize the increased detection potential at higher center-of-mass energies, particularly at 3 TeV compared to 2 TeV, with notable improvements when polarized beams are utilized. We also account for the effects of initial state radiation, beamstrahlung, and systematic uncertainties, which influence both exclusion and discovery prospects.