LHC 750 GeV Diphoton excess in a radiative seesaw model

Abstract

We investigate a possibility for explaining the recently announced 750\,GeV diphoton excess by the ATLAS and the CMS experiments at the CERN LHC in a model with multiple doubly charged particles, which was originally suggested for explaining tiny neutrino masses through a three-loop effect in a natural way. The enhanced radiatively generated effective coupling of a new singlet scalar S with diphoton with multiple charged particles in the loop enlarges the production rate of S in pp S+X via photon fusion process and also the decay width (S γγ) even without assuming a tree level production mechanism. We provide detailed analysis on the cases with or without allowing the mixing between S and the standard model Higgs doublet.