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Relativistic hydrodynamics: a singulant perspective

Relativistic hydrodynamics: a singulant perspective
Relativistic hydrodynamics: a singulant perspective
There is growing evidence that the hydrodynamic gradient expansion is factorially divergent. We advocate for using Dingle's singulants as a way to gain analytic control over its large-order behaviour for nonlinear flows. Within our approach, singulants can be viewed as new emergent degrees of freedom which reorganise the large-order gradient expansion. We work out the physics of singulants for longitudinal flows, where they obey simple evolution equations which we compute in M\"uller-Israel-Stewart-like models, holography and kinetic theory. These equations determine the dynamics of the large-order behaviour of the hydrodynamic expansion, which we confirm with explicit numerical calculations. One of our key findings is a duality between singulant dynamics and a certain linear response theory problem. Finally, we discuss the role of singulants in optimal truncation of the hydrodynamic gradient expansion. A by-product of our analysis is a new M\"uller-Israel-Stewart-like model, where the qualitative behaviour of singulants shares more similarities with holography than models considered hitherto.
hep-ph, hep-th, nucl-th, physics.flu-dyn
Heller, Michal P.
5b6c6d3e-4731-414d-8556-bd8604ce5377
Serantes, Alexandre
e19687f5-de76-4cb3-9afa-c9d843c3f5e2
Spaliński, Michał
3fabf22d-7873-492c-8bc6-6101c914c2b0
Svensson, Viktor
8a239c71-2e14-4d40-9aa1-2dc260d05507
Withers, Benjamin
e510375b-c5d2-4d5f-bd68-40ace13f0ec9
Heller, Michal P.
5b6c6d3e-4731-414d-8556-bd8604ce5377
Serantes, Alexandre
e19687f5-de76-4cb3-9afa-c9d843c3f5e2
Spaliński, Michał
3fabf22d-7873-492c-8bc6-6101c914c2b0
Svensson, Viktor
8a239c71-2e14-4d40-9aa1-2dc260d05507
Withers, Benjamin
e510375b-c5d2-4d5f-bd68-40ace13f0ec9

Heller, Michal P., Serantes, Alexandre, Spaliński, Michał, Svensson, Viktor and Withers, Benjamin (2022) Relativistic hydrodynamics: a singulant perspective. Physical Review X, 12 (4), [041010]. (doi:10.1103/PhysRevX.12.041010).

Record type: Article

Abstract

There is growing evidence that the hydrodynamic gradient expansion is factorially divergent. We advocate for using Dingle's singulants as a way to gain analytic control over its large-order behaviour for nonlinear flows. Within our approach, singulants can be viewed as new emergent degrees of freedom which reorganise the large-order gradient expansion. We work out the physics of singulants for longitudinal flows, where they obey simple evolution equations which we compute in M\"uller-Israel-Stewart-like models, holography and kinetic theory. These equations determine the dynamics of the large-order behaviour of the hydrodynamic expansion, which we confirm with explicit numerical calculations. One of our key findings is a duality between singulant dynamics and a certain linear response theory problem. Finally, we discuss the role of singulants in optimal truncation of the hydrodynamic gradient expansion. A by-product of our analysis is a new M\"uller-Israel-Stewart-like model, where the qualitative behaviour of singulants shares more similarities with holography than models considered hitherto.

Text
2112.12794v2 - Accepted Manuscript
Available under License Creative Commons Attribution.
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Accepted/In Press date: 14 September 2022
Published date: 27 October 2022
Additional Information: v1: 19 pages + appendices, many colourful figures; v2: 24 pages + appendices, 13 figures. Added clarifications, extended Outlook discussion, and appendix on stability & causality of the new M\"uller-Israel-Stewart-like model in the linear response regime. Matches version published in PRX
Keywords: hep-ph, hep-th, nucl-th, physics.flu-dyn

Identifiers

Local EPrints ID: 473583
URI: http://eprints.soton.ac.uk/id/eprint/473583
DOI: doi:10.1103/PhysRevX.12.041010
PURE UUID: 1c666e56-7104-4d2b-8e43-1c2ca138e534
ORCID for Benjamin Withers: ORCID iD orcid.org/0000-0001-8490-9948

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Date deposited: 24 Jan 2023 17:33
Last modified: 06 Jun 2024 01:27

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Contributors

Author: Michal P. Heller
Author: Alexandre Serantes
Author: Michał Spaliński
Author: Viktor Svensson
Author: Benjamin Withers ORCID iD

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