Explaining the diphoton excess in Alternative Left-Right Symmetric Model

Abstract

We propose a possible explanation of the recent diphoton excess reported by ATLAS and CMS collaborations, at around 750 GeV diphoton invariant mass, within the framework of E6 motivated Alternative Left-Right Symmetric Model (ALRSM), which is capable of addressing the B decay anomalies in the flavor sector, the eejj and e missing pTjj excesses reported by CMS in run 1 of LHC and has the feature of high scale leptogenesis. We find that gluon-gluon fusion can give the observed production rate of the 750 GeV resonance, n, through a loop of scalar leptoquarks (h(c)) with mass below a few TeV range, while n can subsequently decay into γγ final state via loops of h(c) and E(c). Interestingly, the E(c) loop can enhance the diphoton branching ratio significantly to successfully explain the observed cross section of the diphoton signal.