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Non-Equilibrium Quantum Transport of Chiral Fluids from Kinetic Theory

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arxiv 1807.05018 v1 pith:WFC5UQJR submitted 2018-07-13 nucl-th hep-phhep-th

Non-Equilibrium Quantum Transport of Chiral Fluids from Kinetic Theory

classification nucl-th hep-phhep-th
keywords chiralanomalousnon-equilibriumbackgroundcorrectionsfieldsfluidsfunctions
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We introduce the quantum-field-theory (QFT) derivation of chiral kinetic theory (CKT) from the Wigner-function approach, which manifests side jumps and non-scalar distribution functions associated with Lorentz covariance and incorporates both background fields and collisions. The formalism is utilized to investigate second-order responses of chiral fluids near local equilibrium. Such non-equilibrium anomalous transport is dissipative and affected by interactions. Contributions from both quantum corrections in anomalous hydrodynamic equations (EOM) of motion and those from the CKT and Wigner functions (WF) are considered in a relaxation-time approximation (RTA). Anomalous charged Hall currents engendered by background electric fields and temperature/chemical-potential gradients are obtained. Furthermore, chiral magnetic/vortical effects (CME/CVE) receive viscous corrections as non-equilibrium modifications stemming from the interplay between side jumps, magnetic-moment coupling, and chiral anomaly.

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