Study of the h γ Z coupling at the ILC

Abstract

We studied the e+e- h γ process at the International Linear Collider (ILC) at s=250 GeV, based on the full detector simulation of the International Large Detector (ILD). This process is loop-induced in the Standard Model (SM) and is sensitive to new physics which alters h γ γ or h γ Z coupling. We performed the analysis by employing the leading signal channels with h b b and h WW* and including full SM background processes. The results are obtained for two scenarios of beam polarisations each with an integrated luminosity of 900 fb-1. We found the expected significance of the SM signal is 0.40σ for P(e-,e+)=(-0.8,+0.3) (the left-handed polarisation), and 0.06σ for P(e-,e+)=(+0.8,-0.3) (the right-handed polarisation). The bounds on new physics effects are reported as the 95% C.L. upper limit for the cross-section of e+e- h γ: σhγL < 1.8 fb and σhγR < 0.5 fb respectively for left- and right-handed polarisations. The constraints on effective hγ Z couplings are to be further studied.