Uniformly rotating vortices for the lake equation

Taoufik Hmidi; Haroune Houamed; Emeric Roulley; Mohamed Zerguine

doi:10.1007/s00208-025-03168-9

Uniformly rotating vortices for the lake equation

Taoufik Hmidi, Haroune Houamed, Emeric Roulley, Mohamed Zerguine

Mathematics

Research output: Contribution to journal › Article › peer-review

Abstract

We investigate the existence of time-periodic vortex patch solutions, in both simply and doubly-connected cases, for the two-dimensional lake equation where the depth function of the lake is assumed to be non-degenerate and radial. The proofs employ bifurcation techniques, where the most challenging steps are related to the regularity study of some nonlinear functionals and the spectral analysis of their linearized operators around Rankine type vortices. The main difficulties stem from the roughness and the implicit form of the Green function connecting the fluid vorticity and its stream function. We handle in part these issues by exploring the asymptotic structure of the solutions to the associated elliptic problem. As to the distribution of the spectrum, it is tackled by a fixed-point argument through a perturbative approach.

Original language	English (US)
Journal	Mathematische Annalen
DOIs	https://doi.org/10.1007/s00208-025-03168-9
State	Accepted/In press - 2025

ASJC Scopus subject areas

General Mathematics

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title = "Uniformly rotating vortices for the lake equation",

abstract = "We investigate the existence of time-periodic vortex patch solutions, in both simply and doubly-connected cases, for the two-dimensional lake equation where the depth function of the lake is assumed to be non-degenerate and radial. The proofs employ bifurcation techniques, where the most challenging steps are related to the regularity study of some nonlinear functionals and the spectral analysis of their linearized operators around Rankine type vortices. The main difficulties stem from the roughness and the implicit form of the Green function connecting the fluid vorticity and its stream function. We handle in part these issues by exploring the asymptotic structure of the solutions to the associated elliptic problem. As to the distribution of the spectrum, it is tackled by a fixed-point argument through a perturbative approach.",

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AU - Hmidi, Taoufik

AU - Houamed, Haroune

AU - Roulley, Emeric

AU - Zerguine, Mohamed

N1 - Publisher Copyright: © The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature 2025.

PY - 2025

Y1 - 2025

N2 - We investigate the existence of time-periodic vortex patch solutions, in both simply and doubly-connected cases, for the two-dimensional lake equation where the depth function of the lake is assumed to be non-degenerate and radial. The proofs employ bifurcation techniques, where the most challenging steps are related to the regularity study of some nonlinear functionals and the spectral analysis of their linearized operators around Rankine type vortices. The main difficulties stem from the roughness and the implicit form of the Green function connecting the fluid vorticity and its stream function. We handle in part these issues by exploring the asymptotic structure of the solutions to the associated elliptic problem. As to the distribution of the spectrum, it is tackled by a fixed-point argument through a perturbative approach.

AB - We investigate the existence of time-periodic vortex patch solutions, in both simply and doubly-connected cases, for the two-dimensional lake equation where the depth function of the lake is assumed to be non-degenerate and radial. The proofs employ bifurcation techniques, where the most challenging steps are related to the regularity study of some nonlinear functionals and the spectral analysis of their linearized operators around Rankine type vortices. The main difficulties stem from the roughness and the implicit form of the Green function connecting the fluid vorticity and its stream function. We handle in part these issues by exploring the asymptotic structure of the solutions to the associated elliptic problem. As to the distribution of the spectrum, it is tackled by a fixed-point argument through a perturbative approach.

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Uniformly rotating vortices for the lake equation

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