Chiral kinetic theory in curved spacetime

Chiral kinetic theory in curved spacetime

Many-body systems with chiral fermions exhibit anomalous transport phenomena originated from quantum anomalies. Based on quantum field theory, we derive the kinetic theory for chiral fermions interacting with an external electromagnetic field in a background curved geometry. The resultant framework...

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Veröffentlicht in:Physical review. D 2019-04, Vol.99 (8), p.1, Article 085014
Hauptverfasser: Liu, Yu-Chen, Gao, Lan-Lan, Mameda, Kazuya, Huang, Xu-Guang
Format: Artikel
Sprache:eng
Schlagworte:
Anomalies
Chiral dynamics
Coriolis force
Electromagnetic fields
Fermions
Field theory
Gravitational effects
Isomorphism
Kinetic theory
Quantum field theory
Quantum theory
Rotating fluids
Rotation
Transport phenomena
Vorticity
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Zusammenfassung:Many-body systems with chiral fermions exhibit anomalous transport phenomena originated from quantum anomalies. Based on quantum field theory, we derive the kinetic theory for chiral fermions interacting with an external electromagnetic field in a background curved geometry. The resultant framework is U(1) gauge invariant and local Lorentz and diffeomorphism covariant. It is particularly useful to study the gravitational or noninertial effects for chiral fermions. As the first application, we study the chiral dynamics in a rotating coordinate and clarify the roles of the Coriolis force and spin-vorticity coupling in generating the chiral vortical effect. We also show that the chiral vortical effect is an intrinsic phenomenon of a rotating chiral fluid, and thus independent of the observer's frame.
ISSN:2470-0010
2470-0029
DOI:10.1103/PhysRevD.99.085014