Abstract
The significance of new physics appearing in the loop-induced decays of neutral Higgs bosons into pairs of dibosons $\gamma\gamma$ and $Z\gamma$ will be discussed in the framework of the 3-3-1 models based on a recent work~\cite{Okada:2016whh}, where the Higgs sector becomes effectively the same as that in the two Higgs doublet models (2HDM) after the first symmetry breaking from $SU(3)_L$ scale into the electroweak scale. For large $SU(3)_L$ scale $v_3\simeq10$ TeV, dominant one-loop contributions to the two decay amplitudes arise from only the single charged Higgs boson predicted by the 2HDM, leading to that experimental constraint on the signal strength $\mu^{331}_{\gamma\gamma}$ of the Standard Model-like Higgs boson decay $h\rightarrow \gamma\gamma$ will result in a strict upper bound on the signal strength $\mu^{331}_{Z\gamma}$ of the decay $h\rightarrow\, Z\gamma$. For a particular model with lower $v_3$ around 3 TeV, contributions from heavy charged gauge and Higgs bosons may have the same order, therefore may give strong destructive or constructive correlations. As a by-product, a deviation from the SM prediction $|\mu^{331}_{\gamma\gamma}-1| \le 0.04$ still allows $|\mu^{331}_{Z\gamma}-1|$ to reach values near 0.1. We also show that there exists an $CP$-even neutral Higgs boson $h^0_3$ predicted by the 3-3-1 models, but beyond the 2HDM, has an interesting property that the branching ratio Br$(h^0_3\rightarrow \gamma\gamma)$ is very sensitive to the parameter $\beta$ used to distinguish different 3-3-1 models.
Highlights
One of the most important channels confirming the existence of the standard model-like (SM-like) Higgs boson is the loop-induced decay channel h → γγ
For large SUð3ÞL scale v3 ≃ 10 TeV, dominant one-loop contributions to the two decay amplitudes arise from only the single charged Higgs boson predicted by the 2HDM, leading to that experimental constraint on the signal strength μ3γγ31 of the Standard Model-like Higgs boson decay h → γγ will result in a strict upper bound on the signal strength μ3Z3γ1 of the decay h → Zγ
We show that there exists an CP-even neutral Higgs boson h03 predicted by the 3-3-1 models, but beyond the 2HDM, has an interesting property that the branching ratio Brðh03 → γγÞ is very sensitive to the parameter β used to distinguish different 3-3-1 models
Summary
One of the most important channels confirming the existence of the standard model-like (SM-like) Higgs boson is the loop-induced decay channel h → γγ. The three Higgs triplets contain new charged Higgs bosons that may contribute to the amplitudes of the loopinduced decays of neutral Higgs bosons, including the SM-like one Correlations among these Higgs and gauge contributions will predict the allowed regions of the parameter space satisfying the current experimental data of h → γγ. We will study effects of heavy particles predicted by the 3-3-1 models on the two signal strengths of the two decays of the SM-like Higgs bosons h → γγ; Zγ, using more general analytic formulas of one-loop contributions to the decay amplitude h → Zγ introduced recently [47,48]. There are three Appendxes listing more detailed calculations on couplings, particular analytic formulas for one-loop contributions to the decay amplitudes h; h03 → γγ; Zγ, and interesting numerical illustrations
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