Radiative decay ZH-> γ AH in the little Higgs model with T-parity

Abstract

In the little Higgs model with T-parity (LHTM), the only tree-level kinematically allowed two-body decay of the ZH boson is ZH-> AH H and thus one-loop induced two-body decays may have a significant rate. We study the ZH-> γ AH decay, which is induced at the one-loop level by a fermion triangle and is interesting as it depends on the mechanism of anomaly cancellation of the model. All the relevant two- and three-body decays of the ZH gauge boson arising at the tree-level are also calculated. We consider a small region of the parameter space where the scale of the symmetry breaking f is still allowed to be as low as 500 GeV by electroweak precision data. We first analyze the scenario of a Higgs boson with a mass of 120 GeV. We found that the ZH->γ AH branching ratio can be of the order of a tree-level three-body decay and may be at the reach of detection at the LHC for f close to 500 GeV, but it may be difficult to detect for f=1 TeV. There is also an scenario where the Higgs boson has an intermediate mass such that the ZH-> AH H decay is closed, the ZH-> γ AH gets considerably enhanced and the chances of detection get a large boost.