Pion quasiparticles in isospin medium from holography

Abstract

The properties of the pion quasiparticle in hot and dense isospin medium, including the temperature and isospin chemical potential dependence of their screening mass, pole mass and thermal width, as well as their relationships with the pion superfluid phase transition, are investigated in the framework of two-flavor (Nf=2) soft-wall AdS/QCD models. We extract the screening mass of the pion from the pole of the spatial two-point Retarded correlation function. We find that the screening masses of both neutral and charged pions increase monotonously with the increasing of temperature. However, the isospin chemical potential μI would depress the screening masses of the charged pions, mπ,scr. With the increasing of μI, mπ,scr monotonically decrease to zero on the boundary between the normal phase and the pion superfluid phase, while the screening mass of the neutral pion, mπ0,scr, remains almost unchanged. The pole mass mpole and thermal width of the pion are extracted from the pole of temporal two-point Retarded correlation function, i.e., the corresponding quasi-normal frequencies, ω=mpole-i/2. The results show that the pole masses of the three modes (π0, π+, π-) are splitting at finite μI. The thermal widths of the three modes monotonically increase with temperature. Furthermore, the pole mass of π+ decreases almost linearly with the increasing of μI and reaches zero at μI=μIc, It means that π+ becomes a massless Goldstone boson of the pion superfluid phase transition.