π- and K-Mesons Properties for Large Nf

Abstract

The restoration of dynamical chiral symmetry for a higher number of light-quark flavors Nf implies suppression of the dynamically generated quark mass. The study of various larger values of Nf may have a greater impact on the internal structure of light hadrons. In this work, we study the properties of the π- (pion) and K-meson (kaon), such as the mass, condensate, and leptonic decay constant, for various Nf. We use the symmetry-preserving vector-vector flavor-dependent contact interaction model of quark. The dynamical quark masses are calculated using the Schwinger-Dyson equation (SDE). The masses of pion (mπ) and kaon (mK) for different values of Nf and are determined using the homogeneous Bethe-Salpeter equation. For fixed Nc=3 and Nf is increased, the dynamically generated quark mass Mu/d ( mass of up and down quarks), strange quark mass (Ms), meson in-condensate 1/3(π,K), and decay constant f(π, K). monotonically decrease as a function of Nf, except for the pion and kaon mass m(π, K), which increase above a critical value of Nf around 8. This is the region where chiral symmetry is restored and the pion and kaon behave as free particles, similar to thier behavior in the the presence of a heat bath. The results obtained for fixed Nf=2 and Nc=3 are fairly in decent agreement with experimentally calculated statistics and previous model calculations based on the Schwinger-Dyson equation (SDE) and Bethe-Salpeter equation (BSE).