New W-prime signals at the LHC

Abstract

We study the W' phenomenology in composite Higgs/ warped extra dimensional models focusing on the effect of fermionic resonances at 1 TeV. After deriving the existing bounds from the current LHC-8 analyses, we highlight the most promising signatures for W' discovery at the 14 TeV LHC. We find in particular very promising the study of W' decay modes into vector-like top partners, specifically the decay into a doublet of custodian heavy fermions, T5/3 T2/3, and the decay into a heavy fermion plus a Standard Model quark. We perform a detailed parton level analysis of the channel W' T5/3 T2/3 in the same-sign dilepton final state, finding that it is a very promising signature to test the region at high W' mass, mW' 2 TeV, and of the W' Tb mode, that is one of the best channels to test the intermediate W' mass region and that, already with the LHC-8 data, could extend the present exclusion bounds.