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Chiral hydrodynamics in strong external magnetic fields

Martin Ammon, Sebastian Grieninger, Juan Hernandez, Matthias Kaminski, Roshan Koirala, Julian Leiber, Jackson M. S. Wu

2021Journal of High Energy Physics50 citationsDOIOpen Access PDF

Abstract

A bstract We construct the general hydrodynamic description of (3+1)-dimensional chiral charged (quantum) fluids subject to a strong external magnetic field with effective field theory methods. We determine the constitutive equations for the energy-momentum tensor and the axial charge current, in part from a generating functional. Furthermore, we derive the Kubo formulas which relate two-point functions of the energy-momentum tensor and charge current to 27 transport coefficients: 8 independent thermodynamic, 4 independent non-dissipative hydrodynamic, and 10 independent dissipative hydrodynamic transport coefficients. Five Onsager relations render 5 more transport coefficients dependent. We uncover four novel transport effects, which are encoded in what we call the shear-induced conductivity, the two expansion-induced longitudinal conductivities and the shear-induced Hall conductivity. Remarkably, the shear-induced Hall conductivity constitutes a novel non-dissipative transport effect. As a demonstration, we compute all transport coefficients explicitly in a strongly coupled quantum fluid via holography.

Topics & Concepts

Dissipative systemPhysicsMagnetic fieldTensor (intrinsic definition)Momentum (technical analysis)Quantum Hall effectClassical mechanicsKubo formulaTransport phenomenaHall effectCharge (physics)QuantumConductivityQuantum electrodynamicsQuantum mechanicsMathematicsPure mathematicsFinanceEconomicsBlack Holes and Theoretical PhysicsHigh-Energy Particle Collisions ResearchQuantum, superfluid, helium dynamics
Chiral hydrodynamics in strong external magnetic fields | Litcius