A large-Nc PNJL model with explicit ZNc symmetry

Abstract

A PNJL model is built, in which the Polyakov-loop potential is explicitly ZNc-symmetric in order to mimic a Yang-Mills theory with gauge group SU(Nc). The physically expected large-Nc and large-T behaviours of the thermodynamic observables computed from the Polyakov-loop potential are used to constrain its free parameters. The effective potential is eventually U(1)-symmetric when Nc is infinite. Light quark flavours are added by using a Nambu-Jona-Lasinio (NJL) model coupled to the Polyakov loop (the PNJL model), and the different phases of the resulting PNJL model are discussed in 't Hooft's large-Nc limit. Three phases are found, in agreement with previous large-Nc studies. When the temperature T is larger than some deconfinement temperature Td, the system is in a deconfined, chirally symmetric, phase for any quark chemical potential μ. When T<Td however, the system is in a confined phase in which chiral symmetry is either broken or not. The critical line T(μ), signalling the restoration of chiral symmetry, has the same qualitative features than what can be obtained within a standard Nc=3 PNJL model.