Three-Loop O(alphas2 GF Mt2) Corrections to Higgs Production and Decay at e+e- Colliders

Abstract

We evaluate the next-to-leading-order QCD corrections of O(alphas2 GF Mt2) to the Standard-Model l+l-H, ZZH, and W+W-H couplings in the heavy-top- quark limit. Exploiting these results together with knowledge of Delta rho to the same order, we analyze a variety of production and decay processes of low- mass Higgs bosons at e+e- colliders. Specifically, we consider H->l+l-, H->l+l-l'+l'-, e+e-->ZH, Z->ff-barH, and e+e-->ff-barH, with f=l,nu. We work in the electroweak on-shell scheme formulated with GF and employ both the on-shell and MS-bar definitions of the top-quark mass in QCD. As expected, the scheme and scale dependences are greatly reduced when the next-to-leading- order corrections are taken into account. In the on-shell scheme of top-quark mass renormalization, the O(alphas2 GF Mt2) corrections act in the same direction as the O(alphas GF Mt2) ones and further increase the screening of the O(GF Mt2) terms. The coefficients of (alphas/pi)2 range from -6.847 for the ZZH coupling to -16.201 for the l+l-H coupling. This is in line with the value -14.594 recently found for Delta rho.

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