High-precision limits on W–$$W'$$ and Z–$$Z'$$ mixing from diboson production using the full LHC Run 2 ATLAS data set

Abstract

AbstractThe full ATLAS Run 2 data set with time-integrated luminosity of $$139 \, {\text {fb}}^{-1}$$139fb-1 in the diboson channels in hadronic final states is used to probe a simple model with an extended gauge sector (EGM), proposed by Altarelli et al., and often taken as a convenient benchmark by experimentalists. This model accommodates new charged $$W'$$W′ and neutral $$Z'$$Z′ vector bosons with modified trilinear Standard Model gauge couplings, decaying into electroweak gauge boson pairs WZ or WW, where W/Z decay hadronically. Exclusion limits at the 95% CL on the $$Z'$$Z′ and $$W'$$W′ resonance production cross section times branching ratio to electroweak gauge boson pairs in the mass range of $$\sim $$∼ 1–5 TeV are here converted to constraints on W–$$W'$$W′ and Z–$$Z'$$Z′ mixing parameters and masses for the EGM. We present exclusion regions on the parameter space of the $$W'$$W′ and $$Z'$$Z′ by using the full Run 2 data set comprised of pp collisions at $$\sqrt{s}=13 \, \hbox {TeV}$$s=13TeV and recorded by the ATLAS detector at the CERN LHC. The obtained exclusion regions are significantly extended compared to those obtained from the previous analysis performed with Tevatron data as well as with LHC data collected at 7 and 8 TeV in Run 1 and are the most stringent bounds to date.