Chiral Symmetry Restoration and Scalar-Pseudoscalar partners in QCD

Abstract

We describe Scalar-Pseudoscalar partner degeneration at the QCD chiral transition in terms of the dominant low-energy physical states for the light quark sector. First, we obtain within model-independent one-loop Chiral Perturbation Theory (ChPT) that the QCD pseudoscalar susceptibility is proportional to the quark condensate at low T. Next, we show that this chiral-restoring behaviour for P is compatible with recent lattice results for screening masses and gives rise to degeneration between the scalar and pseudoscalar susceptibilities (S, P) around the transition point, consistently with an O(4)-like current restoration pattern. This scenario is clearly confirmed by lattice data when we compare S(T) with the quark condensate, expected to scale as P(T). Finally, we show that saturating S with the σ/f0(500) broad resonance observed in pion scattering and including its finite temperature dependence, allows to describe the peak structure of S(T) in lattice data and the associated critical temperature. This is carried out within a unitarized ChPT scheme which generates the resonant state dynamically and is also consistent with partner degeneration.