Litcius/Paper detail

Canonical and phenomenological formulations of spin hydrodynamics

Asaad Daher, Arpan Das, Wojciech Florkowski, Radosław Ryblewski

2023Physical review. C39 citationsDOIOpen Access PDF

Abstract

Two formulations of relativistic hydrodynamics of particles with spin 1/2 are compared. The first approach, dubbed the canonical one, uses expressions for the energy-momentum and spin tensors that have properties that follow a direct application of Noether's theorem, which yields a totally antisymmetric spin tensor. The other one is based on a simplified form of the spin tensor and is commonly used in the current literature under the name of a phenomenological approach. We show that these two frameworks are equivalent, i.e., they can be directly connected by a suitably defined pseudogauge transformation, only if the first framework is initially improved by a suitable modification of the energy-momentum tensor (addition of a divergence-free term that cannot be interpreted as a pseudogauge). Our analysis uses arguments related to the positivity of entropy production. The latter turns out to be equivalent for the improved canonical and phenomenological frameworks.

Topics & Concepts

Noether's theoremAntisymmetric tensorTensor (intrinsic definition)PhysicsStress–energy tensorSpin (aerodynamics)Antisymmetric relationMathematical physicsEntropy (arrow of time)Theoretical physicsClassical mechanicsMathematicsQuantum mechanicsExact solutions in general relativityLagrangianPure mathematicsThermodynamicsGauge theoryHigh-Energy Particle Collisions ResearchBlack Holes and Theoretical PhysicsCosmology and Gravitation Theories