Simple non-Abelian extensions of the standard model gauge group and the diboson excesses at the LHC

Abstract

The ATLAS collaboration reported excesses at around 2 TeV in the di-boson production decaying into hadronic final states. We consider the possibility of explaining the excesses with extra gauge bosons in two simple non-Abelian extensions of the Standard Model. One is the so-called G(221) models with a symmetry structure of SU(2)1 SU(2)2 U(1)X and the other is the G(331) models with an extended symmetry of SU(3)C SU(3)L U(1)X. The W' and Z' bosons emerge after the electroweak symmetry is spontaneously broken. Two patterns of symmetry breaking in the G(221) models are considered in this work: one is SU(2)L SU(2)2 U(1)X SU(2)L U(1)Y, the other is SU(2)1 SU(2)2 U(1)Y SU(2)L U(1)Y. The symmetry breaking of the G(331) model is SU(3)L U(1)X SU(2)L U(1)Y. We perform a global analysis of W and Z phenomenology in ten new physics models, including all the channels of W/Z decay. Our study shows that the leptonic mode and the dijet mode of W/Z decays impose a very stringent bound on the parameter space in several new physics models. Such tight bounds provide a useful guide for building new physics models to address on the diboson anomalies. We also note that the Left-Right and Lepton-Phobic models can explain the 3.4σ WZ excess if the 2.6σ deviation in the W+W- pair around 2~TeV were confirmed to be a fluctuation of the SM backgrounds.