NLO QCD and EW corrections to vector-boson scattering into W+W- at the LHC

Abstract

We present the full next-to-leading-order electroweak and QCD corrections to vector-boson scattering into a pair of off-shell opposite-sign W bosons decaying into leptons of different flavour at the LHC. We include full leading-order predictions for the irreducible background. Explicitly, we investigate the process pp e+ eμ-μ jj + X at leading orders O(α6), O(αsα5), O(αs2α4), supplemented by the loop-induced O(αs4α4) contribution, and at next-to-leading orders O(α7) and O(αsα6) in two setups providing fiducial cross sections as well as differential distributions. We take full account of photon-induced next-to-leading-order contributions, which prove to be non negligible. With -11.4\% and -6.7\% in the two setups, the electroweak corrections are smaller than for other vector-boson-scattering processes. This can be traced back to the presence of the Higgs-boson resonance in the fiducial phase space, whose effects we analyse within an additional unphysical, but manifestly gauge-invariant setup. The QCD corrections amount to -5.1\% and -21.6\% in the two setups. The large size of the latter correction, compared to other vector-boson scattering processes, is explained by a very restrictive definition of its fiducial phase space.