Interpreting the 750 GeV Di-photon Resonance using photon-jets in Hidden-Valley-like models

Abstract

Motivated by the di-photon resonance recently reported by the ATLAS and CMS collaborations at s =13 TeV, we interpret the resonance as a scalar boson X (750) in hidden-valley-like models. The scalar boson X can mix with the standard model Higgs boson and thus can be produced via gluon fusion. It then decays into a pair of very light hidden particles Y of sub-GeV, each of which in turn decays to a pair of collimated π0 's, and these two π0 's decay into photons which then form photon-jets. A photon-jet ( γ -jet) is a special feature that consists of a cluster of collinear photons from the decay of a fast moving light particle (sub-GeV). Because these photons inside the photon-jet are so collimated that it cannot be distinguished from a single photon, and so in the final state of the decay of X(750) a pair of photon-jets look like a pair of single photons, which the experimentalists observed and formed the 750 GeV di-photon resonance. Prospects for the LHC Run-2 about other new and testable features are also discussed.