The Higgs boson inclusive decay channels H bb and H gg up to four-loop level

Abstract

The principle of maximum conformality (PMC) has been suggested to eliminate the renormalization scheme and renormalization scale uncertainties, which are unavoidable for the conventional scale setting and are usually important errors for theoretical estimations. In this paper, by applying PMC scale setting, we analyze two important inclusive Standard Model Higgs decay channels, H→ bb and H→ gg, up to four-loop and three-loop levels accordingly. After PMC scale setting, it is found that the conventional scale uncertainty for these two channels can be eliminated to a high degree. There is small residual initial scale dependence for the Higgs decay widths due to unknown higher-order \βi\-terms. Up to four-loop level, we obtain (H→ bb) = 2.3890.073 0.041 MeV and up to three-loop level, we obtain (H→ gg) = 0.3730.030 MeV, where the first error is caused by varying MH=1264 GeV and the second error for H bb is caused by varying the MS-running mass mb(mb)=4.180.03 GeV. Taking H bb as an example, we present a comparison of three BLM-based scale setting approaches, e.g. the PMC-I approach based on the PMC-BLM correspondence, the Rδ-scheme and the seBLM approach, all of which are designed to provide effective ways to identify non-conformal \βi\-series at each perturbative order. At four-loop level, all those approaches lead to good pQCD convergence, they have almost the same pQCD series, and their predictions are almost independent on the initial renormalization scale. In this sense, those approaches are equivalent to each other.