Hydrodynamics of massless integrable RG flows and a non-equilibrium c-theorem

A bstract We study Euler scale hydrodynamics of massless integrable quantum field theories interpolating between two non-trivial renormalisation group fixed points after inhomogeneous quantum quenches. Using a partitioning protocol with left and right initial thermal states and the recently develope...

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Bibliographic Details
Published in:The journal of high energy physics 2019-10, Vol.2019 (10), p.1-40, Article 20
Main Author: Horváth, D. X.
Format: Article
Language:English
Subjects:
Bethe Ansatz
Classical and Quantum Gravitation
Computational fluid dynamics
Conformal Field Theory
Elementary Particles
Equilibrium
Existence theorems
Field theory
Fluid flow
Fluid mechanics
High energy physics
Hydrodynamics
Integrable Field Theories
Ising model
Momentum
Physics
Physics and Astronomy
Quantum Field Theories
Quantum Field Theory
Quantum Physics
Quantum theory
Regular Article - Theoretical Physics
Relativity Theory
Renormalization Group
String Theory
Transport
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Summary:A bstract We study Euler scale hydrodynamics of massless integrable quantum field theories interpolating between two non-trivial renormalisation group fixed points after inhomogeneous quantum quenches. Using a partitioning protocol with left and right initial thermal states and the recently developed framework of generalised hydrodynamics, we focus on current and density profiles for the energy and momentum as a function of ξ = x/t , where both x and t are sent to infinity. Studying the first few members of the A n and D n massless flows we carry out a systematic treatment of these series and generalise our results to other unitary massless models. In our analysis we find that the profiles exhibit extended plateaux and that non-trivial bounds exist for the energy and momentum densities and currents in the non-equilibrium stationary state, i.e. when ξ = 0. To quantify the magnitude of currents and densities, dynamical central charges are defined and it is shown that the dynamical central charge for the energy current satisfies a certain monotonicity property. We discuss the connection of the Landauer-Büttiker formalism of transport with our results and show that this picture can account for some of the bounds for the currents and for the monotonicity of the dynamical central charge. These properties are shown to be present not only in massless flows but also in the massive sinh-Gordon model suggesting their general validity and the correctness of the Landauer-Büttiker interpretation of transport in integrable field theories. Our results thus imply the existence of a non-equilibrium c-theorem as well, at least in integrable models. Finally we also study the interesting low energy behaviour of the A 2 model that corresponds to the massless flow from the tricritical to the critical Ising field theory.
ISSN:1029-8479
1029-8479
DOI:10.1007/JHEP10(2019)020