Nearly critical superfluid: effective field theory and holography

Nearly critical superfluid: effective field theory and holography

A bstract We study a nearly critical superfluid system from two complementary approaches. Within the first approach, we formulate a Schwinger-Keldysh effective field theory (EFT) for the system when it is located slightly above the critical temperature. The dynamical variables in the EFT constructio...

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Veröffentlicht in:The journal of high energy physics 2024-07, Vol.2024 (7), p.104-35, Article 104
Hauptverfasser: Bu, Yanyan, Gao, Hongfei, Gao, Xin, Li, Zhiwei
Format: Artikel
Sprache:eng
Schlagworte:
AdS-CFT Correspondence
Approximation
Boundary conditions
Chemical equilibrium
Classical and Quantum Gravitation
Complex variables
Construction
Critical phenomena
Critical temperature
Elementary Particles
Equilibrium
Field theory
Fluid mechanics
Fluids
Holography
Holography and Hydrodynamics
Order parameters
Partial differential equations
Phase transitions
Physics
Physics and Astronomy
Quantum Field Theories
Quantum Field Theory
Quantum Physics
Random variables
Regular Article - Theoretical Physics
Relativity Theory
Scalars
Stochastic models
String Theory
Superfluidity
Symmetry
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Zusammenfassung:A bstract We study a nearly critical superfluid system from two complementary approaches. Within the first approach, we formulate a Schwinger-Keldysh effective field theory (EFT) for the system when it is located slightly above the critical temperature. The dynamical variables in the EFT construction are two scalars: a neutral scalar associated with the conserved U(1) charge, and a complex scalar describing the order parameter. The set of symmetries, particularly the dynamical Kubo-Martin-Schwinger (KMS) symmetry and chemical shift symmetry, strictly constrains the form of EFT action. Within the second approach, using the holographic Schwinger-Keldysh technique, we derive the effective action for a “microscopic” holographic superfluid, confirming the EFT construction. A systematic inclusion of non-Gaussianity is one highlight of present study.
ISSN:1029-8479
1029-8479
DOI:10.1007/JHEP07(2024)104