Diphoton Excess and Running Couplings
arXiv:1602.03653 · doi:10.1016/j.physletb.2016.04.031
Abstract
The recently observed diphoton excess at the LHC may suggest the existence of a singlet (pseudo-) scalar particle with a mass of 750 GeV which couples to gluons and photons. Assuming that the couplings to gluons and photons originate from loops of fermions and/or scalars charged under the Standard Model gauge groups, we show that here is a model-independent upper bound on the cross section $Ï(pp\to S\to γγ)$ as a function of the cutoff scale $Î$ and masses of the fermions and scalars in the loop. Such a bound comes from the fact that the contribution of each particle to the diphoton event amplitude is proportional to its contribution to the one-loop $β$ functions of the gauge couplings. We also investigate the perturbativity of running Yukawa couplings in models with fermion loops, and show the upper bounds on $Ï(pp\to S\to γγ)$ for explicit models.
1+17 pages