New mixed inhomogeneous phase in vortical gluon plasma: First-principle results from rotating SU(3) lattice gauge theory
V. V. Braguta, M. N. Chernodub, A. A. Roenko
Abstract
Using first-principle numerical simulations, we find a new spatially inhomogeneous phase in rigidly rotating Nc=3 gluon plasma. This mixed phase simultaneously possesses both confining and deconfining phases in thermal equilibrium. Unexpectedly, the local critical temperature of the phase transition at the rotation axis does not depend on the angular frequency within a few percent accuracy. Even more surprisingly, an analytic continuation of our results to the domain of real angular frequencies indicates a profound breaking of the Tolman-Ehrenfest law in the vicinity of the phase transition, with the confining (deconfining) phase appearing far (near) the rotation axis.
Topics & Concepts
PhysicsPhase transitionLattice (music)PlasmaQuantum electrodynamicsGauge theoryRotation (mathematics)Quark–gluon plasmaLattice gauge theoryPhase (matter)ThermalGluonLattice field theoryCondensed matter physicsQuantum mechanicsQuantum chromodynamicsGeometryThermodynamicsAcousticsMathematicsHigh-Energy Particle Collisions ResearchQuantum Chromodynamics and Particle InteractionsCold Atom Physics and Bose-Einstein Condensates