An Invariant Charge Model for All q2>0 in QCD and Gluon Condensate

Abstract

Under assumption of singular behavior of invariant charge alphas(q2) at q2 sim 0 and of large q2 behavior, corresponding to the perturbation theory up to four loops, a procedure is considered of smooth matching the beta-function at a boundary of perturbative and nonperturbative regions. The procedure results in a model for alphas for all q2>0 with dimensionless parameters being fixed and dimensional parameters being expressed in terms of only one quantity LambdaQCD. The gluon condensate which is defined by the nonperturbative part of the invariant charge is calculated for two variants of ``true perturbative'' invariant charge, corresponding to freezing option and to analytic one in nonperturbative region. Dimensional parameters are fixed by varying normalization condition alphas(m2tau) = 0.29, 0.30, ..., 0.36. It is obtained that on the boundary of perturbative region alpha0 = alphas(q02) simeq 0.44, the procedure results in nonperturbative Coulomb component alphaCoulomb simeq 0.25, the nonperturbative region scale q0 simeq 1 GeV, the model parameter sigma simeq (0.42 GeV)2 which suits as string tension parameter, the gluon condensate appears to be close for two variants considered, K simeq (0.33 -- 0.36 GeV)4 (for alphas(m2tau) = 0.33).

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