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Higher-order QCD perturbation theory in different schemes: From FOPT to CIPT to FAPT

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arxiv 1004.4125 v4 pith:MQDSGED6 submitted 2010-04-23 hep-ph hep-th

Higher-order QCD perturbation theory in different schemes: From FOPT to CIPT to FAPT

classification hep-ph hep-th
keywords ciptfaptperturbationtheorydifferentexpansionsfoptresults
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Results on the resummation of non-power-series expansions of the Adler function of a scalar, $D_S$, and a vector, $D_V$, correlator are presented within fractional analytic perturbation theory (FAPT). The first observable can be used to determine the decay width $\Gamma_{H\to b\bar{b}}$ of a scalar Higgs boson to a bottom-antibottom pair, while the second one is relevant for the $e^+e^-$ annihilation cross section. The obtained estimates are compared with those from fixed-order (FOPT) and contour-improved perturbation theory (CIPT), working out the differences. We prove that although FAPT and CIPT are conceptually different, they yield identical results. The convergence properties of these expansions are discussed and predictions are extracted for the resummed series of $R_S$ and $D_V$ using one- and two-loop coupling running, and making use of appropriate generating functions for the coefficients of the perturbative series.

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Cited by 3 Pith papers

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    Explores numerical optimization of perturbative QCD series for the Bjorken sum rule coefficient and Adler function via renormalization group methods drawn from prior literature.