English

Relativistic Hydrodynamics: A Singulant Perspective

High Energy Physics - Theory 2022-11-01 v2 High Energy Physics - Phenomenology Nuclear Theory Fluid Dynamics

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.

Keywords

Cite

@article{arxiv.2112.12794,
  title  = {Relativistic Hydrodynamics: A Singulant Perspective},
  author = {Michal P. Heller and Alexandre Serantes and Michał Spaliński and Viktor Svensson and Benjamin Withers},
  journal= {arXiv preprint arXiv:2112.12794},
  year   = {2022}
}

Comments

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

R2 v1 2026-06-24T08:30:17.281Z