Melting the Diquark Condensate in Two-Color QCD: A Renormalization Group Analysis

Abstract

We use a Landau theory and the epsilon expansion to study the superfluid phase transition of two-color QCD at nonzero temperature, T, and baryonic chemical potential, mu. At low T, and for Nf flavors of massless quarks, the global SU(Nf) × SU(Nf) × U(1) symmetry is spontaneously broken by a diquark condensate down to Sp(Nf) × Sp(Nf) for any mu > 0. As the temperature increases, the diquark condensate melts, and at sufficiently large T the symmetry is restored. Using renormalization group arguments, we find that in the presence of the chiral anomaly term there can be a second order phase transition when Nf=2 or Nf >= 6, while the transition is first order for Nf=4. We discuss the relevance of these results for the emergence of a tricritical point recently observed in lattice simulations.

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