Di-vector boson production in association with a Higgs boson at hadron colliders

Abstract

We consider the production of a Higgs boson in association with two electroweak vector bosons at hadron colliders. In particular, we examine γγ H, γ ZH, ZZH, and W+W-H production at the LHC (14 TeV), HE-LHC (27 TeV), and FCC-hh (100 TeV) colliders. Our main focus is to estimate the gluon-gluon (gg) channel (gg VV H) contributions to pp VV H~(V,V=γ,Z,W) and compare them with corresponding contributions arising from the quark-quark (qq) channel. Technically, the leading order gg channel contribution to pp VV H cross section is an NNLO correction in αs. In the processes under consideration, we find that in the gg channel, W+W-H has the largest cross section. However, relative contribution of the gg channel is more important for the pp ZZH production. At the FCC-hh, gg ZZH contribution is comparable with the NLO QCD correction to qq ZZH. We also compute the cross sections when W and Z-bosons are polarized. In the production of W+W-H and ZZH, we find that the gg channel contributes more significantly when the vector bosons are longitudinally polarized. By examining such events, one can increase the fraction of the gg channel contribution to these processes. Further, we have studied beyond-the-standard-model effects in the -framework. We find that the gg channel processes ZZH and WWH have very mild dependence on λ, but strong dependence on t and V. The qq channel processes mainly depend on V. Dependence of the gg channel contribution on V is stronger than that of the qq channel contribution. Therefore focusing on events with longitudinally polarized W and Z-bosons, one can find stronger dependence on V that can help us measure this parameter.