Investigating the Single Production of Vector-Like Quarks Decaying into Top Quark and W Boson through Hadronic Channels at the HL-LHC

Abstract

We investigate the single production of vector-like quarks at the High Luminosity LHC (HL-LHC). With the assumed (enhanced) couplings to third generation quarks of the standard model, vector-like quarks B/X are produced in association with a bottom (b) or top (t) quark, which correspond to Bbq and Btq/Xtq production modes, including an additional soft forward jet from the spectator quark (q). This study focuses on high-mass vector-like quarks B/X decaying into a top quark and a W boson, resulting in the final state jets emerging from hadronically decaying top quark (t Wb) and W boson (W qq'). The events with W boson and t quark have been analysed using tagging techniques for large-radius jets. The scan ranges of the mass (1000<mB/X<3000 GeV) for the relative width B/X/mB/X=0.1 and B/X/mB/X=0.01 of vector-like B/X quarks have been investigated. From the results of the analysis, the masses of vector like quarks B(X) up to 2491 (2364) GeV and 2018 (1873) GeV can be excluded corresponding to these relative width cases at 95\% CL depending on the type and branching scenarios at integrated luminosity projection of 3 ab-1 at the HL-LHC.