Production and decays of a light φ0 in the LRTH model under the LHC Higgs data

Abstract

In this paper we study the production and decays of a light pseudoscalar boson φ0 with mφ0 ≤ mh/2 appeared in the left-right twin Higgs (LRTH) model, and explore its phenomenological consequences when the latest LHC Higgs data are taken into account. We found that (a) the decay rate Br(h φ0φ0) can be as large as 80\% and can suppress significantly the visible γγ signal rate, but the latest LHC Higgs data put a strong constraint on it: Br(h φ0φ0) ≤ 30\% at 3σ level; (b) the p-value of the LRTH model is around 0.6, smaller than that of the SM in most of the parameter space and approaches the SM value 0.8 for a sufficiently large f parameter; (c) the neutral pseudoscalar φ0 dominantly decay into bb and the decay rate Br(φ0 bb) can be larger than 80\% for mφ0≤ 60 GeV, and the second main decay mode is φ0 τ+τ- with a branching ratio about 14\%; and (d) at the future e-e+ collider with s=250 GeV, the processes e+e- Zh Z(φ0φ0) Z(4b,2b2τ) are promising for discovering such a light pseudoscalar φ0.