English

Spin hydrodynamics on a hyperbolic expanding background

Nuclear Theory 2026-03-04 v1 High Energy Physics - Phenomenology High Energy Physics - Theory

Abstract

We study relativistic spin hydrodynamics on the hyperbolic κ=1\kappa=-1 flow background recently identified by Grozdanov. This background corresponds to an SO(2,1)SO(2,1)-invariant, transversely expanding solution with finite spacetime support in Minkowski space, in contrast to the well-known Gubser flow (κ=+1)(\kappa=+1) which possesses SO(3)SO(3) symmetry and infinite transverse extent. Working within the formulation of perfect-fluid spin hydrodynamics, we derive the exact evolution equations for all spin components of the spin potential on the κ=1\kappa=-1 background. We find that the enhanced early-time expansion rate and the presence of a causal edge lead to a stronger localization of spin dynamics compared to the Gubser case. Remarkably, the azimuthal component of the spin potential oscillates as it decays in the forward lightcone, in stark contrast to the Gubser flow. Thus, our results establish the κ=1\kappa=-1 flow as a distinct and physically meaningful benchmark for studying spin dynamics in expanding relativistic fluids with finite spacetime support.

Keywords

Cite

@article{arxiv.2603.02296,
  title  = {Spin hydrodynamics on a hyperbolic expanding background},
  author = {Rajeev Singh and Alexander Soloviev},
  journal= {arXiv preprint arXiv:2603.02296},
  year   = {2026}
}

Comments

23 pages; 5 figures; Comments and feedback are welcome; It is possible that we may have missed crucial references, so please let us know

R2 v1 2026-07-01T10:59:53.707Z