Diboson excess and Z'-predictions via left-right non-linear Higgs

Abstract

The excess events reported by the ATLAS Collaboration in the WZ-final state, and by the CMS Collaboration in the e+\!e- jj, Wh and jj-final states, may be induced by the decays of a heavy boson W' in the 1.8-2 TeV mass range, here modelled via the larger local group SU(2)L× SU(2)R× U(1)B-L in a non-linear dynamical Higgs scenario. The W'-production cross section at the 13 TeV LHC is around 700-1200 fb. This framework also predicts a heavy Z' boson with a mass of 2.5-4 TeV, and some decay channels testable in the LHC Run II. We determine the cross section times branching fractions for the dijet, dilepton and top-pair Z'-decay channels at the 13 TeV LHC around 2.3, 7.1, 70.2 fb respectively, for MZ'= 2.5 TeV, while one/two orders of magnitude smaller for the dijet/dilepton and top-pair modes at MZ'= 4 TeV. Non-zero contributions from the effective operators, and the underlying Higgs sector of the model, will induce sizeable enhancement in the W+W- and Z h-final states that could be probed in the future LHC Run II.