English

Quark Condensate from Renormalization Group Optimized Spectral Density

High Energy Physics - Phenomenology 2015-12-11 v1 High Energy Physics - Lattice High Energy Physics - Theory

Abstract

Our renormalization group consistent variant of optimized perturbation, RGOPT, is used to calculate the nonperturbative QCD spectral density of the Dirac operator and the related chiral quark condensate qˉq\langle \bar q q \rangle, for nf=2n_f=2 and nf=3n_f=3 massless quarks. Sequences of approximations at two-, three-, and four-loop orders are very stable and give qˉqnf=21/3(2GeV)=(0.8330.845)Λˉ2\langle \bar q q \rangle^{1/3}_{n_f=2}(2\, {\rm GeV}) = -(0.833-0.845) \bar\Lambda_2 , and qˉqnf=31/3(2GeV)=(0.8140.838)Λˉ3 \langle \bar q q \rangle^{1/3}_{n_f=3}(2\, {\rm GeV}) = -(0.814-0.838) \bar\Lambda_3 where the range is our estimated theoretical error and Λˉnf\bar\Lambda_{n_f} the basic QCD scale in the MSˉ\rm \bar{MS}-scheme. We compare those results with other recent determinations (from lattice calculations and spectral sum rules).

Keywords

Cite

@article{arxiv.1512.03406,
  title  = {Quark Condensate from Renormalization Group Optimized Spectral Density},
  author = {J. -L. Kneur and A. Neveu},
  journal= {arXiv preprint arXiv:1512.03406},
  year   = {2015}
}

Comments

5 pages, talk given at 18th International Conference in Quantum Chromodynamics (QCD 15) Montpellier, to appear in the proceedings

R2 v1 2026-06-22T12:06:42.549Z