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Causality and stability in relativistic viscous non-resistive magneto-fluid dynamics

Rajesh Biswas, Ashutosh Dash, Najmul Haque, Shi Pu, Victor Roy

2020Journal of High Energy Physics32 citationsDOIOpen Access PDF

Abstract

A bstract We investigate the causality and the stability of the relativistic viscous non-resistive magneto-hydrodynamics in the framework of the Israel-Stewart (IS) second-order theory, and also within a modified IS theory which incorporates the effect of magnetic fields in the relaxation equations of the viscous stress. We compute the dispersion relation by perturbing the fluid variables around their equilibrium values. In the ideal magnetohydrodynamics limit, the linear dispersion relation yields the well-known propagating modes: the Alfvén and the magneto-sonic modes. In the presence of bulk viscous pressure, the causality bound is found to be independent of the magnitude of the magnetic field. The same bound also remains true, when we take the full non-linear form of the equation using the method of characteristics. In the presence of shear viscous pressure, the causality bound is independent of the magnitude of the magnetic field for the two magneto-sonic modes. The causality bound for the shear-Alfvén modes, however, depends both on the magnitude and the direction of the propagation. For modified IS theory in the presence of shear viscosity, new non-hydrodynamic modes emerge but the asymptotic causality condition is the same as that of IS. In summary, although the magnetic field does influence the wave propagation in the fluid, the study of the stability and asymptotic causality conditions in the fluid rest frame shows that the fluid remains stable and causal given that they obey certain asymptotic causality condition.

Topics & Concepts

Causality (physics)PhysicsDispersion relationClassical mechanicsMagnetic fieldInstabilityMagnetohydrodynamicsStability (learning theory)Shear (geology)Dispersion (optics)Viscous liquidRelaxation (psychology)Shear flowPerfect fluidUpper and lower boundsMechanicsRest frameField (mathematics)Magnitude (astronomy)Bound stateDust and Plasma Wave PhenomenaNavier-Stokes equation solutionsHigh-Energy Particle Collisions Research