Litcius/Paper detail

Extending a scaling equation of state to QCD

Joseph I. Kapusta, T. Welle

2022Physical review. C11 citationsDOIOpen Access PDF

Abstract

Whether quantum chromodynamics (QCD) exhibits a phase transition at finite temperature and density is an open question. It is important for hydrodynamic modeling of heavy ion collisions and neutron-star mergers. Lattice QCD simulations have definitively shown that the transition from hadrons to quarks and gluons is a crossover when the baryon chemical potential is zero or small. We combine the parametric scaling equation of state, usually associated with the three-dimensional Ising model, with a background equation of state based on a smooth crossover from hadrons to quarks and gluons. Comparison to experimental data from the Beam Energy Scan II at the Relativistic Heavy Ion Collider or in heavy ion experiments at other accelerators may allow the critical exponents and amplitudes in the scaling equation of state to be determined for QCD if a critical point exists.

Topics & Concepts

PhysicsQuark–gluon plasmaQuantum chromodynamicsLattice QCDParticle physicsGluonEquation of stateNuclear physicsQuarkRelativistic Heavy Ion ColliderHadronScalingCritical phenomenaBaryonPhase transitionQuantum electrodynamicsHeavy ionQuantum mechanicsIonMathematicsGeometryHigh-Energy Particle Collisions ResearchQuantum Chromodynamics and Particle InteractionsParticle physics theoretical and experimental studies