English

Superlinear gradient growth for 2D Euler equation without boundary

Analysis of PDEs 2025-07-22 v1

Abstract

We consider the vorticity gradient growth of solutions to the two-dimensional Euler equations in domains without boundary, namely in the torus T2\mathbb{T}^{2} and the whole plane R2\mathbb{R}^{2}. In the torus, whenever we have a steady state ω\omega^* that is orbitally stable up to a translation and has a saddle point, we construct ω~0C(T2){\tilde{\omega}}_0 \in C^\infty(\mathbb{T}^2) that is arbitrarily close to ω\omega^* in L2L^2, such that superlinear growth of the vorticity gradient occurs for an open set of smooth initial data around ω~0{\tilde{\omega}}_0. This seems to be the first superlinear growth result which holds for an open set of smooth initial data (and does not require any symmetry assumptions on the initial vorticity). Furthermore, we obtain the first superlinear growth result for smooth and compactly supported vorticity in the plane, using perturbations of the Lamb-Chaplygin dipole.

Keywords

Cite

@article{arxiv.2507.15739,
  title  = {Superlinear gradient growth for 2D Euler equation without boundary},
  author = {In-Jee Jeong and Yao Yao and Tao Zhou},
  journal= {arXiv preprint arXiv:2507.15739},
  year   = {2025}
}

Comments

24 pages, 4 figures

R2 v1 2026-07-01T04:11:39.975Z