Pion condensation phase at finite isospin chemical potential in a Holographic QCD model
arXiv:1402.6131
Abstract
We summarize main points of our recent work where we studied the pion condensation for non-zero isospin chemical potential within a holographic QCD model. We confirmed that the second order phase transition with the mean field exponent occurs when the isospin chemical potential $μ_I$ exceed the pion mass, which is consistent with the result obtained by the chiral effective Lagrangian at $O(p^2)$. We find that a deviation for large $μ_I$ region can be understood as a higher order effects in the chiral effective Lagrangian. Our result shows that the chiral condensate defined by $\tildeÏ \equiv \sqrt{ \langle Ï\rangle^2 + \langle Ï^a \rangle^2 }$ is almost constant in the small $μ_I$ region, while it grows with $μ_I$ in the large $μ_I$ region showing an enhancement of the chiral symmetry breaking.
5 pages, 3 Figures, to appear in the proccedings of the "Hadron2013" conference held in Nara, 4-8 November 2013