Fluid dynamics for relativistic spin-polarized media

Wojciech Florkowski; Bengt Friman; Amaresh Jaiswal; Radoslaw; Ryblewski; Enrico Speranza

arXiv:1810.01709·nucl-th·October 4, 2018·1 cites

Fluid dynamics for relativistic spin-polarized media

Wojciech Florkowski, Bengt Friman, Amaresh Jaiswal, Radoslaw, Ryblewski, Enrico Speranza

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TL;DR

This paper reviews a new relativistic fluid dynamics framework for spin-polarized media and investigates the stability of vortex solutions representing rotating equilibria.

Contribution

It introduces a novel approach to relativistic hydrodynamics for spin-polarized systems and applies it to analyze vortex stability.

Findings

01

Vortex solutions can be stable under certain conditions.

02

The new framework effectively models spin effects in relativistic fluids.

03

Numerical results support the physical relevance of the approach.

Abstract

We briefly review the basic features of a new framework for relativistic perfect fluid hydrodynamics of polarized systems consisting of particles with spin one half. Using this approach we numerically study the stability of a stationary vortex-like solution, representing global equilibrium of a rotating medium.

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Taxonomy

TopicsGeomagnetism and Paleomagnetism Studies · High-Energy Particle Collisions Research · Quantum, superfluid, helium dynamics