Paralinearization of the Dirichlet to Neumann operator, and regularity of three-dimensional water waves

Thomas Alazard; Guy Métivier

doi:10.1080/03605300903296736

Paralinearization of the Dirichlet to Neumann operator, and regularity of three-dimensional water waves

Thomas Alazard
, Guy Métivier

Laboratoire de Mathématiques d'Orsay
IMB UMR 5251

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

Abstract

This paper is concerned with a priori C∞ regularity for three-dimensional doubly periodic travelling gravity waves whose fundamental domain is a symmetric diamond. The existence of such waves was a long standing open problem solved recently by Iooss and Plotnikov. The main difficulty is that, unlike conventional free boundary problems, the reduced boundary system is not elliptic for three-dimensional pure gravity waves, which leads to small divisors problems. Our main result asserts that sufficiently smooth diamond waves which satisfy a Diophantine condition are automatically C∞. In particular, we prove that the solutions defined by Iooss and Plotnikov are C∞. Two notable technical aspects are that (i) no smallness condition is required and (ii) we obtain an exact paralinearization formula for the Dirichlet to Neumann operator.

Original language	English
Pages (from-to)	1632-1704
Number of pages	73
Journal	Communications in Partial Differential Equations
Volume	34
Issue number	12
DOIs	https://doi.org/10.1080/03605300903296736
Publication status	Published - 1 Jan 2009
Externally published	Yes

Keywords

Free boundary
Gravity waves
Paradifferential calculus
Small divisors

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10.1080/03605300903296736

Cite this

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abstract = "This paper is concerned with a priori C∞ regularity for three-dimensional doubly periodic travelling gravity waves whose fundamental domain is a symmetric diamond. The existence of such waves was a long standing open problem solved recently by Iooss and Plotnikov. The main difficulty is that, unlike conventional free boundary problems, the reduced boundary system is not elliptic for three-dimensional pure gravity waves, which leads to small divisors problems. Our main result asserts that sufficiently smooth diamond waves which satisfy a Diophantine condition are automatically C∞. In particular, we prove that the solutions defined by Iooss and Plotnikov are C∞. Two notable technical aspects are that (i) no smallness condition is required and (ii) we obtain an exact paralinearization formula for the Dirichlet to Neumann operator.",

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AU - Métivier, Guy

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N2 - This paper is concerned with a priori C∞ regularity for three-dimensional doubly periodic travelling gravity waves whose fundamental domain is a symmetric diamond. The existence of such waves was a long standing open problem solved recently by Iooss and Plotnikov. The main difficulty is that, unlike conventional free boundary problems, the reduced boundary system is not elliptic for three-dimensional pure gravity waves, which leads to small divisors problems. Our main result asserts that sufficiently smooth diamond waves which satisfy a Diophantine condition are automatically C∞. In particular, we prove that the solutions defined by Iooss and Plotnikov are C∞. Two notable technical aspects are that (i) no smallness condition is required and (ii) we obtain an exact paralinearization formula for the Dirichlet to Neumann operator.

AB - This paper is concerned with a priori C∞ regularity for three-dimensional doubly periodic travelling gravity waves whose fundamental domain is a symmetric diamond. The existence of such waves was a long standing open problem solved recently by Iooss and Plotnikov. The main difficulty is that, unlike conventional free boundary problems, the reduced boundary system is not elliptic for three-dimensional pure gravity waves, which leads to small divisors problems. Our main result asserts that sufficiently smooth diamond waves which satisfy a Diophantine condition are automatically C∞. In particular, we prove that the solutions defined by Iooss and Plotnikov are C∞. Two notable technical aspects are that (i) no smallness condition is required and (ii) we obtain an exact paralinearization formula for the Dirichlet to Neumann operator.

KW - Free boundary

KW - Gravity waves

KW - Paradifferential calculus

KW - Small divisors

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EP - 1704

JO - Communications in Partial Differential Equations

JF - Communications in Partial Differential Equations

IS - 12

ER -

Paralinearization of the Dirichlet to Neumann operator, and regularity of three-dimensional water waves

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Keywords

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