Renormalization group improved pressure for cold and dense QCD
Résumé
We apply the renormalization group optimized perturbation theory (RGOPT) to evaluate the QCD (matter) pressure at the two-loop level considering three flavors of massless quarks in a dense and cold medium. Already at leading order (αs0), which builds on the simple one loop (RG resummed) term, our technique provides a nontrivial nonperturbative approximation which is completely renormalization group invariant. At the next-to-leading order the comparison between the RGOPT and the perturbative QCD predictions shows that the former method provides results which are in better agreement with the state-of-the-art higher order perturbative results, which include a contribution of order αs3ln2αs. At the same time one also observes that the RGOPT predictions are less sensitive to variations of the arbitrary MS¯ renormalization scale than those obtained with perturbative QCD. These results indicate that the RGOPT provides an efficient resummation scheme which may be considered as an alternative to lattice simulations at high baryonic densities.
Mots clés
temperature: low
baryon: density: high
pressure: high
quark: flavor: 3
quark: massless
higher-order: 0
strong interaction: coupling constant
higher-order: 2
scale: renormalization
approximation: nonperturbative
numerical methods: lattice
higher-order: 1
resummation
renormalization group: invariance
quantum chromodynamics: matter
Strong Interactions
quantum chromodynamics: perturbation theory
Origine : Fichiers éditeurs autorisés sur une archive ouverte