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Relativistic dissipative spin hydrodynamics from kinetic theory with a nonlocal collision term

Nora Weickgenannt, David Wagner, Enrico Speranza, Dirk H. Rischke

2022Physical review. D/Physical review. D.58 citationsDOI

Abstract

We derive relativistic dissipative spin hydrodynamics from kinetic theory featuring a nonlocal collision term using the method of moments. In this framework, the components of the spin tensor are dynamical variables which obey relaxation-type equations. We find that the corresponding relaxation times are determined by the local part of the collision term, while the nonlocal part contributes to the Navier-Stokes terms in these equations of motion. The spin relaxation timescales are comparable to those of the usual dissipative currents. Finally, the Navier-Stokes limit of the Pauli-Lubanski vector receives contributions proportional to the shear tensor of the fluid, which implies that the polarization of hadrons observed in heavy-ion collisions is influenced by dissipative effects.

Topics & Concepts

Dissipative systemPhysicsKinetic theoryClassical mechanicsCollisionKinetic energyRelaxation (psychology)Kinetic termBoltzmann equationQuantum electrodynamicsQuantum mechanicsTheoretical physicsComputer securityComputer sciencePsychologySocial psychologyScalar fieldHigh-Energy Particle Collisions ResearchCosmology and Gravitation TheoriesQuantum Chromodynamics and Particle Interactions
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