ttbb at the LHC: On the size of off-shell effects and prompt b-jet identification

Abstract

We investigate full off-shell effects in ttbb production in the dilepton channel at the LHC with the center-of-mass energy s = 13 TeV. Specifically, we compute NLO QCD corrections to the pp e+ e μ- μ b b b b + X process and provide a prescription for b-jet identification to distinguish prompt b jets from b jets originating from the decay of the top quarks. As an important irreducible background to pp ttH (H bb), tt production in association with two prompt b jets is a primary source of uncertainty in the measurement of ttH (H bb). In quantifying full off-shell effects, we perform comparisons between the state-of-the-art full off-shell computation and the calculation in the narrow width approximation. The former includes all double-, single- and non-resonant Feynman diagrams, interferences as well as finite-width effects of the top quarks and W gauge bosons. The latter restricts the unstable top quarks and W gauge bosons to on-shell states and includes for the first time NLO QCD corrections to both production and decays. We observe that full off-shell effects are subdominant compared to the scale uncertainties for the integrated fiducial cross section and for the majority of differential observables in the phase-space regions that we investigated. However, for a number of observables related to beyond the Standard Model searches, full off-shell effects are significant. Furthermore, with our b-jet labelling prescription, the prompt b jets and the b jets from top-quark decays can be successfully disentangled.