LARGE-AMPLITUDE STEADY GRAVITY WATER WAVES WITH GENERAL VORTICITY AND CRITICAL LAYERS

Erik Wahlén; Jörg Weber

doi:10.1215/00127094-2023-0054

LARGE-AMPLITUDE STEADY GRAVITY WATER WAVES WITH GENERAL VORTICITY AND CRITICAL LAYERS

Erik Wahlén, Jörg Weber

Mathematics (Faculty of Sciences)

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

Abstract

We consider two-dimensional steady periodic gravity waves on water of finite depth with a prescribed but arbitrary vorticity distribution. The water surface is allowed to be overhanging, and no assumptions regarding the absence of stagnation points and critical layers are made. Using conformal mappings and a new reformulation of Bernoulli’s equation, we uncover an equivalent formulation as “identity plus compact,” which is amenable to Rabinowitz’s global bifurcation theorem. This allows us to construct a global connected set of solutions, bifurcating from laminar flows with a flat surface. Moreover, a nodal analysis is carried out for these solutions under a certain spectral assumption involving the vorticity function. Lastly, downstream waves are investigated in more detail.

Original language	English
Pages (from-to)	2197-2258
Number of pages	62
Journal	Duke Mathematical Journal
Volume	173
Issue number	11
DOIs	https://doi.org/10.1215/00127094-2023-0054
Publication status	Published - 2024

Subject classification (UKÄ)

Computational Mathematics

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10.1215/00127094-2023-0054

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title = "LARGE-AMPLITUDE STEADY GRAVITY WATER WAVES WITH GENERAL VORTICITY AND CRITICAL LAYERS",

abstract = "We consider two-dimensional steady periodic gravity waves on water of finite depth with a prescribed but arbitrary vorticity distribution. The water surface is allowed to be overhanging, and no assumptions regarding the absence of stagnation points and critical layers are made. Using conformal mappings and a new reformulation of Bernoulli{\textquoteright}s equation, we uncover an equivalent formulation as “identity plus compact,” which is amenable to Rabinowitz{\textquoteright}s global bifurcation theorem. This allows us to construct a global connected set of solutions, bifurcating from laminar flows with a flat surface. Moreover, a nodal analysis is carried out for these solutions under a certain spectral assumption involving the vorticity function. Lastly, downstream waves are investigated in more detail.",

author = "Erik Wahl{\'e}n and J{\"o}rg Weber",

year = "2024",

doi = "10.1215/00127094-2023-0054",

language = "English",

volume = "173",

pages = "2197--2258",

journal = "Duke Mathematical Journal",

issn = "0012-7094",

publisher = "Duke University Press",

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AU - Wahlén, Erik

AU - Weber, Jörg

PY - 2024

Y1 - 2024

N2 - We consider two-dimensional steady periodic gravity waves on water of finite depth with a prescribed but arbitrary vorticity distribution. The water surface is allowed to be overhanging, and no assumptions regarding the absence of stagnation points and critical layers are made. Using conformal mappings and a new reformulation of Bernoulli’s equation, we uncover an equivalent formulation as “identity plus compact,” which is amenable to Rabinowitz’s global bifurcation theorem. This allows us to construct a global connected set of solutions, bifurcating from laminar flows with a flat surface. Moreover, a nodal analysis is carried out for these solutions under a certain spectral assumption involving the vorticity function. Lastly, downstream waves are investigated in more detail.

AB - We consider two-dimensional steady periodic gravity waves on water of finite depth with a prescribed but arbitrary vorticity distribution. The water surface is allowed to be overhanging, and no assumptions regarding the absence of stagnation points and critical layers are made. Using conformal mappings and a new reformulation of Bernoulli’s equation, we uncover an equivalent formulation as “identity plus compact,” which is amenable to Rabinowitz’s global bifurcation theorem. This allows us to construct a global connected set of solutions, bifurcating from laminar flows with a flat surface. Moreover, a nodal analysis is carried out for these solutions under a certain spectral assumption involving the vorticity function. Lastly, downstream waves are investigated in more detail.

UR - https://www.scopus.com/pages/publications/85200454460

U2 - 10.1215/00127094-2023-0054

DO - 10.1215/00127094-2023-0054

M3 - Article

AN - SCOPUS:85200454460

SN - 0012-7094

VL - 173

SP - 2197

EP - 2258

JO - Duke Mathematical Journal

JF - Duke Mathematical Journal

IS - 11

ER -

LARGE-AMPLITUDE STEADY GRAVITY WATER WAVES WITH GENERAL VORTICITY AND CRITICAL LAYERS

Abstract

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