The Friedberg-Lee model at finite temperature and density

Abstract

The Friedberg-Lee model is studied at finite temperature and density. By using the finite temperature field theory, the effective potential of the Friedberg-Lee model and the bag constant B(T) and B(T,μ) have been calculated at different temperatures and densities. It is shown that there is a critical temperature TC 106.6 MeV when μ=0 MeV and a critical chemical potential μ 223.1 MeV for fixing the temperature at T=50 MeV. We also calculate the soliton solutions of the Friedberg-Lee model at finite temperature and density. It turns out that when T≤ TC (or μ ≤ μC), there is a bag constant B(T) (or B(T,μ)) and the soliton solutions are stable. However, when T>TC (or μ>μC) the bag constant B(T)=0 MeV (or B(T,μ)=0 MeV) and there is no soliton solution anymore, therefore, the confinement of quarks disappears quickly.