Single Higgs Boson Production at Electron-Positron Colliders in Gauge-Higgs Unification

Abstract

We examine contributions to single Higgs boson production processes via Z' and W' bosons in the SU(3)C× SO(5)W× U(1)X gauge-Higgs unification (GHU) model. In particular, we analyze the cross sections of three single Higgs boson production processes e-e+ Zh, e-e+ h, and e-e+ e-e+h in the SM and the GHU model. For the Higgs strahlung process e-e+ Zh, we show that for a parameter region satisfying the current experimental constraints, a maximum deviation from the SM is about up to 6% for the center-of-mass energy of the initial electron and positron s=250 GeV and that from the SM is about up to 20% for s=500 GeV, depending on the initial polarization of electron and positron. The deviation from the SM is monotonically increasing with respect to s for s 1 TeV. By using the Higgs strahlung process, it is possible to explore up to the region of tens of TeV in terms of the Kaluza-Klein (KK) mass. We also show that the sign of the bulk mass of a lepton multiplet in the GHU model can be determined by examining the deviation of the left-right symmetry of the e-e+ Zh process from the SM. The contributions to the cross sections of the e-e+ h and e-e+ e-e+h processes via the Z' and W' bosons are relatively small compared to that for e-e+ Zh at least for s≤ 1 TeV. As is the same as in the SM, the e-e+h process gives a main contribution to the single Higgs boson production processes for s 500 GeV, but large deviations from the SM are only observed on energy scales close to the masses of the first KK gauge bosons or higher.