Physical Observables in QCD without Scale - Scheme
نویسنده
چکیده
We discuss the Stückelberg-Peterman extended renormalization group equations in perturbative QCD, which express the invariance of physical ob-servables under renormalization-scale and scheme-parameter transformations. We introduce a universal coupling function that covers all possible choices of scale and scheme. Any perturbative series in QCD is shown to be equivalent to a particular point in this function. This function can be computed from a set of first-order differential equations involving the extended beta functions. We propose the use of these evolution equations instead of perturbative series for numerical evaluation of physical observables. This formalism is free of scale-scheme ambiguity and allows a reliable error analysis of higher-order corrections. It also provides a precise definition for Λ MS as the pole in the associated 't Hooft scheme. A concrete application to R(e + e − → hadrons) is presented.
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تاریخ انتشار 1992