Renormalization-group improved Higgs to two gluons decay rate
Abstract
We investigate the renormalization-group scale and scheme dependence of the H → gg decay rate at the order N4LO in the renormalization-group summed perturbative theory, which employs the summation of all renormalization-group accessible logarithms including the leading and subsequent four sub-leading logarithmic contributions to the full perturbative series expansion. Moreover, we study the higher-order behaviour of the H → gg decay width using the asymptotic Pad\'e approximant method in four different renormalization schemes. Furthermore, the higher-order behaviour is independently investigated in the framework of the asymptotic Pad\'e-Borel approximant method where generalized Borel-transform is used as an analytic continuation of the original perturbative expansion. The predictions of the asymptotic Pad\'e-Borel approximant method are found to be in agreement with that of the asymptotic Pad\'e approximant method. Finally, we provide the H → gg decay rate at the order N5LO in the fixed-order N5LO \,=\, 0 (1.8375 0.047 αs(MZ),1\% 0.0004Mt 0.0066MH 0.0036 P 0.007s 0.0005sc ), and RGSN5LO \,=\, 0 (1.841 0.047 αs(MZ),1\% 0.0005Mt 0.0066MH 0.0002μ 0.0027 P 0.001sc ) in the renormalization-group summed perturbative theories.
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