Traveling hydroelastic waves in constant vorticity flows with stagnation points

Calin Martin; Emilian Parau

Traveling hydroelastic waves in constant vorticity flows with stagnation points

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

Abstract

We present a bifurcation approach which delivers two-dimensional traveling hydroelastic water waves propagating at the free surface of a rotational ideal fluid of constant vorticity and finite depth, covered by a thin ice sheet which is modeled by using the special Cosserat theory of hyperelastic shells satisfying Kirchhoff’s hypothesis. The approach is based on a reformulation of the water wave problem as a pseudodifferential equation for a function of one variable, giving the elevation of the free surface (allowed to have overhanging profiles). Moreover, the involved method permits the existence of stagnation points whose existence in the resulting solution flows is then proved rigorously.

Original language	English
Journal	Proceedings of the Royal Society A-Mathematical Physical and Engineering Sciences
Publication status	Accepted/In press - 18 Nov 2025

Keywords

Hydroelastic waves
Dirichlet–Neumann map
Hilbert transforms
stagnation points
Cosserat theory

Embargoed Document

Bifurcation_hidroelastic_revision_two_unmarked
Accepted author manuscript, 682 KB
Licence: CC BY
Embargo ends: 31/12/99

Cite this

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title = "Traveling hydroelastic waves in constant vorticity flows with stagnation points",

abstract = "We present a bifurcation approach which delivers two-dimensional traveling hydroelastic water waves propagating at the free surface of a rotational ideal fluid of constant vorticity and finite depth, covered by a thin ice sheet which is modeled by using the special Cosserat theory of hyperelastic shells satisfying Kirchhoff{\textquoteright}s hypothesis. The approach is based on a reformulation of the water wave problem as a pseudodifferential equation for a function of one variable, giving the elevation of the free surface (allowed to have overhanging profiles). Moreover, the involved method permits the existence of stagnation points whose existence in the resulting solution flows is then proved rigorously.",

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journal = "Proceedings of the Royal Society A-Mathematical Physical and Engineering Sciences",

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T1 - Traveling hydroelastic waves in constant vorticity flows with stagnation points

AU - Martin, Calin

AU - Parau, Emilian

PY - 2025/11/18

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N2 - We present a bifurcation approach which delivers two-dimensional traveling hydroelastic water waves propagating at the free surface of a rotational ideal fluid of constant vorticity and finite depth, covered by a thin ice sheet which is modeled by using the special Cosserat theory of hyperelastic shells satisfying Kirchhoff’s hypothesis. The approach is based on a reformulation of the water wave problem as a pseudodifferential equation for a function of one variable, giving the elevation of the free surface (allowed to have overhanging profiles). Moreover, the involved method permits the existence of stagnation points whose existence in the resulting solution flows is then proved rigorously.

AB - We present a bifurcation approach which delivers two-dimensional traveling hydroelastic water waves propagating at the free surface of a rotational ideal fluid of constant vorticity and finite depth, covered by a thin ice sheet which is modeled by using the special Cosserat theory of hyperelastic shells satisfying Kirchhoff’s hypothesis. The approach is based on a reformulation of the water wave problem as a pseudodifferential equation for a function of one variable, giving the elevation of the free surface (allowed to have overhanging profiles). Moreover, the involved method permits the existence of stagnation points whose existence in the resulting solution flows is then proved rigorously.

KW - Hydroelastic waves

KW - Dirichlet–Neumann map

KW - Hilbert transforms

KW - stagnation points

KW - Cosserat theory

M3 - Article

SN - 1364-5021

JO - Proceedings of the Royal Society A-Mathematical Physical and Engineering Sciences

JF - Proceedings of the Royal Society A-Mathematical Physical and Engineering Sciences

ER -