Two-loop O(GF2MH4) corrections to the fermionic decay rates of the Higgs boson
Abstract
We calculate the dominant O(GF2MH4) two-loop electroweak corrections to the fermi\-onic decay widths of a heavy Higgs boson in the Standard Model. Use of the Goldstone-boson equivalence theorem reduces the problem to one involving only the physical Higgs boson H and the Goldstone bosons w and z of the unbroken theory. The two-loop corrections are opposite in sign to the one-loop electroweak corrections, exceed the one-loop corrections in magnitude for MH>1114\ GeV, and increase in relative magnitude as MH2 for larger values of MH. We conclude that the perturbation expansion in powers of GFMH2 breaks down for MH≈ 1100\ GeV. We discuss briefly the QCD and the complete one-loop electroweak corrections to H→ bb, \,tt, and comment on the validity of the equivalence theorem. Finally we note how a very heavy Higgs boson could be described in a phenomenological manner.
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