Conjectures about the Chiral Phase Transition in QCD from Anomalous Multi-Instanton Interactions
Robert D. Pisarski, Fabian Rennecke
Abstract
To date numerical simulations of lattice QCD have not found a chiral phase transition of first order that is expected to occur for sufficiently light pions. We show how the restoration of an exact global chiral symmetry can strongly decrease the breaking of the approximate, anomalous U_{A}(1) symmetry. This is testable on the lattice through simulations for one through four flavors. In QCD a small breaking of the U_{A}(1) symmetry in the chirally symmetric phase generates novel experimental signals.
Topics & Concepts
InstantonQuantum chromodynamicsPhysicsPhase transitionParticle physicsPhase (matter)Chiral anomalyCondensed matter physicsTheoretical physicsQuantum mechanicsHigh-Energy Particle Collisions ResearchParticle physics theoretical and experimental studiesQuantum Chromodynamics and Particle Interactions