Borel Convergence of the Expansion around RG Max Fixed Point and the Mass Gap of Asymptotically Free Models Auteur(s): Kneur J.-L.
Conference: QCD 02 9th High-Energy Physics International Conference on Quantum ChromoDynamics (Montpellier, FR, 2002-07-10) Ref HAL: hal-00268367_v1 DOI: 10.1016/S0920-5632(03)01852-8 WoS: 000184039900051 Exporter : BibTex | endNote Résumé: We review a construction based on an expansion around a (mass) fixed point renormalization group solution, in asymptotically free models. It transmutes the usual perturbative expansion of certain physical quantities in such a way that the alternative expansion parameter 1/F behaves like the ordinary coupling: Image in the perturbative regime Image, but like a power of Image in the infrared regime Image (Imagein and Λ being the scale invariant mass and basic scale respectively). (Borel) convergence of the induced series can hold in a range of F corresponding to reach unambiguously the strong coupling infrared regime, near Image. We argue that certain nonperturbative quantities, such as the (pole) mass gap typically, can be thus obtained from a direct resummation of this alternative expansion (i.e. without adding intrinsically nonperturbative power-like contributions). |