Light mesons around critical end points in T-μB-μI-eB space

Abstract

Light mesons (σ, π0, π) are investigated in T-μB-μI-eB space by using a two-flavor NJL model, which are related to the chiral symmetry restoration and pion superfluid phase transition. In T-μB-eB space, during the chiral restoration process, the mass of pseudo-Goldstone mode π0 keeps increasing, together with the sudden mass jump. At the critical end point region, π0 meson has a very sharp but continuous mass increase, together with a sudden mass jump at the Mott transition, and in the first order chiral phase transition region nearby, we observe twice π0 mass jumps, induced by the Mott transition and quark mass jump, respectively. The mass of Higgs mode σ first decreases and then increases associated with the chiral symmetry restoration, and shows a jump at the first order chiral phase transition. We plot the chiral phase diagram in terms of the change of quark mass, the Mott transition of π0 and the minimum mass of σ. Due to the explicit breaking of chiral symmetry in physical case, the chiral restoration phase boundaries in T-μB plane from the order parameter and meson side are different from each other. In T-μI plane, the competition between pion superfluid phase transition and chiral symmetry restoration under magnetic fields is studied in terms of the Goldstone mode π+ and the pseudo-Goldstone mode π0. The separation of the two phase boundaries is enhanced by the external magnetic field. Different from the twice mass jumps of π0 in the first order chiral phase transition region, the π+ meson displays several mass jumps in the chiral crossover region. At the critical end point, π+ also shows very sharp but continuous mass changes, together with a mass jump at the Mott transition.