Constraints on Mediator Coupled to Heavy Quarks from LHC Data

Abstract

We apply LHC data to constrain a simplified extension of the Standard Model containing a new spin-1 mediator R, which does not couple to first generation quarks, and a spinor dark matter particle . We recast ATLAS and CMS searches for final states containing one or more jet(s) + missing ET, with or without b tags, as well as searches for di-jet resonances with b or t tagging. We find that LHC constraints on the axial vector couplings of the mediator are always stronger than the unitarity bound, which scales like mR/mt. If R has a sizable invisible branching ratio, the strongest LHC bound on both vector couplings and axial vector coupling comes from a di-jet + missing ET search with or without double b tag. These bounds are quite strong for mR < 1 TeV, even though we have switched off all couplings to valence quarks. Searches for a di-jet resonance with double b tag lead to comparable bounds with the previous results even if R → decays are allowed; these are the only sensitive LHC searches if the invisible branching ratio of R is very small or zero.