Abstract:
Searches are presented for heavy gauge bosons decaying into a top and a bottom quark in data collected by the CMS experiment at \(\sqrt{s}\)=13TeV that correspond to an integrated luminosity of 2.2 and 2.6 fb⁻¹ in the leptonic and hadronic analyses, respectively. Two final states are analyzed, one containing a single electron, or muon, and missing transverse momentum, and the other containing multiple jets and no electrons or muons. No evidence is found for a right-handed W′ boson (W′\(_{R}\)) and the combined analyses exclude at 95% confidence level W′\(_{R}\) with masses below 2.4 TeV if \(M_{{W'}_{R}}\) ≫ \(M_{{ν}_{R}}\) (mass of the right-handed neutrino), and below 2.6 TeV if \(M_{{W'}_{R}}\) < \(M_{{ν}_{R}\). The results provide the most stringent limits for right-handed W′ bosons in the top and bottom quark decay channel.
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