Two-Loop Electroweak Heavy-Fermion Corrections to Higgs-Boson Production and Decay
Abstract
The dominant electroweak corrections to the production cross sections and partial decay widths of a light Standard-Model Higgs boson, with mass MH << 2mt, are due to top-quark loops. By means of a low-energy theorem, we study at the two-loop level the leading shifts in the Higgs-boson couplings to pairs of light fermions and gauge bosons induced by a sequential isodoublet of high-mass fermions. For tree-level and loop-induced Higgs-boson couplings, these corrections are of relative orders O(Gmu2 mF4) and O(Gmu mF2), respectively, where mF represents a generic heavy-fermion mass, with mF >> MW, MH. Except for the Hbb-bar coupling, all results carry over to the case of the top-quark-induced corrections. We discuss possible phenomenological consequences of our results.
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