Functional inequalities and strong Lyapunov functionals for free surface flows in fluid dynamics

Thomas Alazard; Didier Bresch

doi:10.4171/IFB/504

Functional inequalities and strong Lyapunov functionals for free surface flows in fluid dynamics

Thomas Alazard
, Didier Bresch

Université Paris-Saclay
Université Savoie Mont Blanc

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

Abstract

This paper is motivated by the study of Lyapunov functionals for the Hele-Shaw and Mullins-Sekerka equations describing free surface flows in fluid dynamics. We prove that the L²norm of the free surface elevation and the area of the free surface are Lyapunov functionals. The proofs combine exact identities for the dissipation rates with functional inequalities. We introduce a functional which controls the L²-norm of three-half spatial derivative. Under a mild smallness assumption on the initial data, we show that the latter quantity is also a Lyapunov functional for the Hele-Shaw equation, implying that the area functional is a strong Lyapunov functional. Precise lower bounds for the dissipation rates are established, showing that these Lyapunov functionals are in fact entropies.

Original language	English
Pages (from-to)	1-30
Number of pages	30
Journal	Interfaces and Free Boundaries
Volume	26
Issue number	1
DOIs	https://doi.org/10.4171/IFB/504
Publication status	Published - 1 Jan 2023
Externally published	Yes

Keywords

Free surface
Hele-Shaw
Lyapunov
Mullins-Sekerka
entropy

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title = "Functional inequalities and strong Lyapunov functionals for free surface flows in fluid dynamics",

abstract = "This paper is motivated by the study of Lyapunov functionals for the Hele-Shaw and Mullins-Sekerka equations describing free surface flows in fluid dynamics. We prove that the L2norm of the free surface elevation and the area of the free surface are Lyapunov functionals. The proofs combine exact identities for the dissipation rates with functional inequalities. We introduce a functional which controls the L2-norm of three-half spatial derivative. Under a mild smallness assumption on the initial data, we show that the latter quantity is also a Lyapunov functional for the Hele-Shaw equation, implying that the area functional is a strong Lyapunov functional. Precise lower bounds for the dissipation rates are established, showing that these Lyapunov functionals are in fact entropies.",

keywords = "Free surface, Hele-Shaw, Lyapunov, Mullins-Sekerka, entropy",

author = "Thomas Alazard and Didier Bresch",

note = "Publisher Copyright: {\textcopyright} 2023 European Mathematical Society Published by EMS Press This work is licensed under a CC BY 4.0 license.",

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T1 - Functional inequalities and strong Lyapunov functionals for free surface flows in fluid dynamics

AU - Alazard, Thomas

AU - Bresch, Didier

PY - 2023/1/1

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N2 - This paper is motivated by the study of Lyapunov functionals for the Hele-Shaw and Mullins-Sekerka equations describing free surface flows in fluid dynamics. We prove that the L2norm of the free surface elevation and the area of the free surface are Lyapunov functionals. The proofs combine exact identities for the dissipation rates with functional inequalities. We introduce a functional which controls the L2-norm of three-half spatial derivative. Under a mild smallness assumption on the initial data, we show that the latter quantity is also a Lyapunov functional for the Hele-Shaw equation, implying that the area functional is a strong Lyapunov functional. Precise lower bounds for the dissipation rates are established, showing that these Lyapunov functionals are in fact entropies.

AB - This paper is motivated by the study of Lyapunov functionals for the Hele-Shaw and Mullins-Sekerka equations describing free surface flows in fluid dynamics. We prove that the L2norm of the free surface elevation and the area of the free surface are Lyapunov functionals. The proofs combine exact identities for the dissipation rates with functional inequalities. We introduce a functional which controls the L2-norm of three-half spatial derivative. Under a mild smallness assumption on the initial data, we show that the latter quantity is also a Lyapunov functional for the Hele-Shaw equation, implying that the area functional is a strong Lyapunov functional. Precise lower bounds for the dissipation rates are established, showing that these Lyapunov functionals are in fact entropies.

KW - Free surface

KW - Hele-Shaw

KW - Lyapunov

KW - Mullins-Sekerka

KW - entropy

U2 - 10.4171/IFB/504

DO - 10.4171/IFB/504

M3 - Article

AN - SCOPUS:85183311555

SN - 1463-9963

VL - 26

SP - 1

EP - 30

JO - Interfaces and Free Boundaries

JF - Interfaces and Free Boundaries

IS - 1

ER -

Functional inequalities and strong Lyapunov functionals for free surface flows in fluid dynamics

Abstract

Keywords

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