Higgs-photon resonances

Abstract

We study models that produce a Higgs boson plus photon (h0 γ) resonance at the LHC. When the resonance is a Z' boson, decays to h0 γ occur at one loop. If the Z' boson couples at tree-level to quarks, then the h0 γ branching fraction is typically of order 10-5 or smaller. Nevertheless, there are models that would allow the observation of Z' h0 γ at s = 13 TeV with a cross section times branching fraction larger than 1 fb for a Z' mass in the 200--450 GeV range, and larger than 0.1 fb for a mass up to 800 GeV. The 1-loop decay of the Z' into lepton pairs competes with h0 γ, even if the Z' couplings to leptons vanish at tree level. We also present a model in which a Z' boson decays into a Higgs boson and a pair of collimated photons, mimicking an h0 γ resonance. In this model, the h0 γ resonance search would be the discovery mode for a Z' as heavy as 2 TeV. When the resonance is a scalar, although decay to h0 γ is forbidden by angular momentum conservation, the h0 plus collimated photons channel is allowed. We comment on prospects of observing an h0 γ resonance through different Higgs decays, on constraints from related searches, and on models where h0 is replaced by a nonstandard Higgs boson.