Probing CP-violating htt coupling in e+e-→ h γ

Abstract

We investigate the possibility of probing the CP-violating htt coupling in the process e+e-→ h γ at the future high luminosity e+e- colliders. Our numerical results show that the cross section for this process can be significantly increased for the allowed CP phase and center of mass energy. For example the cross section is about 6 times of that in the standard model (SM) for s=350~GeV and =3π/5 (see text for definition). The simulation for the signal process e+e-→ h γ → b bγ and its backgrounds shows that the signal significance can reach more than 4.8σ and 2.3σ for s=350~GeV,\ 500~GeV respectively, with the integrated luminosity L=3~ab-1 and ∈[π/2,3π/5]. For L=10~ab-1, the signal significance can be greater than 5 for s=350~GeV and 3.9 for s=500~GeV with the CP phase ∈[π/2,3π/5]. Besides the cross section enhancement, the CP-violating htt coupling will induce the forward-backward asymmetry AFB which is absent in the SM and is a clear signal of new CP violation. Compared with the AFB in the Higgs decay h→ l+l-γ, the AFB can be greatly enhanced in the production process. For example AFB can reach 0.5 for 0.7 and s=500~GeV. Due to the large backgrounds, the significance of the expected AFB can only be observed at 1.7σ with L=10~ab-1 and s=500~GeV. It is essential to trigger the single photon in the final state to separate the bottom jets arising from scalar or vector bosons, in order to isolate the signal from the backgrounds more efficiently.