Pade-Improved Estimates of Hadronic Higgs Decay Rates
Abstract
Asymptotic Pade-approximant methods are utilized to estimate the order αs5 contribution to the H gg rate and the order αs4 contribution to the H b b rate. The former process is of particular interest because of the slow convergence evident from the three known terms of its QCD series, which begins with an order αs2 leading-order term. The order αs5 contribution to the H gg rate is expressed as a degree-3 polynomial in L ln (μ2 / mt2 (μ)). We find that asymptotic Pade-approximant predictions for the coefficients of L, L2, and L3 are respectively within 1%, 2%, and 7% of true values extracted via renormalization-group methods. Upon including the full set of next-order coefficients, the H gg rate is found to be virtually scale-independent over the 0.3 MH < μ < Mt range of the renormalization scale-parameter μ. We conclude by discussing the small order αs4 contribution to the H b b rate, which is obtained from a prior asymptotic Pade-approximant estimate of the order αs4 contribution to the quark-antiquark scalar-current correlation function.
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