Efficient computation of steady solitary gravity waves

Denys Dutykh; Didier Clamond

doi:10.1016/j.wavemoti.2013.06.007

Efficient computation of steady solitary gravity waves

Denys Dutykh, Didier Clamond

Mathematics

Sophia Antipolis

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

60 Scopus citations

Abstract

An efficient numerical method to compute solitary wave solutions to the free surface Euler equations is reported. It is based on the conformal mapping technique combined with an efficient Fourier pseudo-spectral method. The resulting nonlinear equation is solved via the Petviashvili iterative scheme. The computational results are compared to some existing approaches, such as Tanaka's method and Fenton's high-order asymptotic expansion. Several important integral quantities are computed for a large range of amplitudes. The integral representation of the velocity and acceleration fields in the bulk of the fluid is also provided.

Original language	British English
Pages (from-to)	86-99
Number of pages	14
Journal	Wave Motion
Volume	51
Issue number	1
DOIs	https://doi.org/10.1016/j.wavemoti.2013.06.007
State	Published - Jan 2014

Keywords

Euler equations
Gravity waves
Petviashvili method
Solitary wave
Surface waves

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10.1016/j.wavemoti.2013.06.007

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title = "Efficient computation of steady solitary gravity waves",

abstract = "An efficient numerical method to compute solitary wave solutions to the free surface Euler equations is reported. It is based on the conformal mapping technique combined with an efficient Fourier pseudo-spectral method. The resulting nonlinear equation is solved via the Petviashvili iterative scheme. The computational results are compared to some existing approaches, such as Tanaka's method and Fenton's high-order asymptotic expansion. Several important integral quantities are computed for a large range of amplitudes. The integral representation of the velocity and acceleration fields in the bulk of the fluid is also provided.",

keywords = "Euler equations, Gravity waves, Petviashvili method, Solitary wave, Surface waves",

author = "Denys Dutykh and Didier Clamond",

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AU - Dutykh, Denys

AU - Clamond, Didier

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N2 - An efficient numerical method to compute solitary wave solutions to the free surface Euler equations is reported. It is based on the conformal mapping technique combined with an efficient Fourier pseudo-spectral method. The resulting nonlinear equation is solved via the Petviashvili iterative scheme. The computational results are compared to some existing approaches, such as Tanaka's method and Fenton's high-order asymptotic expansion. Several important integral quantities are computed for a large range of amplitudes. The integral representation of the velocity and acceleration fields in the bulk of the fluid is also provided.

AB - An efficient numerical method to compute solitary wave solutions to the free surface Euler equations is reported. It is based on the conformal mapping technique combined with an efficient Fourier pseudo-spectral method. The resulting nonlinear equation is solved via the Petviashvili iterative scheme. The computational results are compared to some existing approaches, such as Tanaka's method and Fenton's high-order asymptotic expansion. Several important integral quantities are computed for a large range of amplitudes. The integral representation of the velocity and acceleration fields in the bulk of the fluid is also provided.

KW - Euler equations

KW - Gravity waves

KW - Petviashvili method

KW - Solitary wave

KW - Surface waves

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DO - 10.1016/j.wavemoti.2013.06.007

M3 - Article

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SN - 0165-2125

VL - 51

SP - 86

EP - 99

JO - Wave Motion

JF - Wave Motion

IS - 1

ER -

Efficient computation of steady solitary gravity waves

Abstract

Keywords

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