Pion superfluid phase transition at finite isospin chemical potential
Abstract
The pion superfluidity phase transition at T-μI and μq-μI planes are studied in the framework of Dyson-Schwinger equations. The rainbow truncation and Gaussian effective gluon propagator are employed to calculate pion condensate, π, as a function of μI at finite T and μq. At T=(0, 80, 113, 120)~MeV, the π keeps zero when μI is less than a critical value μIc(T). The π at T=113~MeV agrees with the lattice QCD result. At the T-μI plane, the pion superfluid phase appears at low temperature and high isospin chemical potential region. At finite μq, π varying with μI almost coincide for μq<400~MeV. At μq-μI plane, the pion superfluid phase appears at μI mπ when μq<400~MeV.
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