Gravity—capillary waves in finite depth on flows of constant vorticity

This paper considers two-dimensional periodic gravity–capillary waves propagating steadily in finite depth on a linear shear current (constant vorticity). A perturbation series solution for steady periodic waves, accurate up to the third order, is derived using a classical Stokes expansion procedure...

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Veröffentlicht in:	Proceedings of the Royal Society. A, Mathematical, physical, and engineering sciences Mathematical, physical, and engineering sciences, 2016-11, Vol.472 (2195), p.1-19
Hauptverfasser:	Hsu, Hung-Chu, Francius, Marc, Montalvo, Pablo, Kharif, Christian
Format:	Artikel
Sprache:	eng
Schlagworte:	Amplitude Approximation Gravity waves Interfacial tension Mathematical constants Phase velocity Vorticity Water waves Wave propagation Waves
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container_title	Proceedings of the Royal Society. A, Mathematical, physical, and engineering sciences
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creator	Hsu, Hung-Chu Francius, Marc Montalvo, Pablo Kharif, Christian
description	This paper considers two-dimensional periodic gravity–capillary waves propagating steadily in finite depth on a linear shear current (constant vorticity). A perturbation series solution for steady periodic waves, accurate up to the third order, is derived using a classical Stokes expansion procedure, which allows us to include surface tension effects in the analysis of wave–current interactions in the presence of constant vorticity. The analytical results are then compared with numerical computations with the full equations. The main results are (i) the phase velocity is strongly dependent on the value of the vorticity; (ii) the singularities (Wilton singularities) in the Stokes expansion in powers of wave amplitude that correspond to a Bond number of 1/2 and 1/3, which are the consequences of the non-uniformity in the ordering of the Fourier coefficients, are found to be influenced by vorticity; (iii) different surface profiles of capillary–gravity waves are computed and the effect of vorticity on those profiles is shown to be important, in particular that the solutions exhibit type-2-like wave features, characterized by a secondary maximum on the surface profile with a trough between the two maxima.
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A perturbation series solution for steady periodic waves, accurate up to the third order, is derived using a classical Stokes expansion procedure, which allows us to include surface tension effects in the analysis of wave–current interactions in the presence of constant vorticity. The analytical results are then compared with numerical computations with the full equations. The main results are (i) the phase velocity is strongly dependent on the value of the vorticity; (ii) the singularities (Wilton singularities) in the Stokes expansion in powers of wave amplitude that correspond to a Bond number of 1/2 and 1/3, which are the consequences of the non-uniformity in the ordering of the Fourier coefficients, are found to be influenced by vorticity; (iii) different surface profiles of capillary–gravity waves are computed and the effect of vorticity on those profiles is shown to be important, in particular that the solutions exhibit type-2-like wave features, characterized by a secondary maximum on the surface profile with a trough between the two maxima.</description><identifier>ISSN: 1364-5021</identifier><language>eng</language><publisher>THE ROYAL SOCIETY</publisher><subject>Amplitude ; Approximation ; Gravity waves ; Interfacial tension ; Mathematical constants ; Phase velocity ; Vorticity ; Water waves ; Wave propagation ; Waves</subject><ispartof>Proceedings of the Royal Society. 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A, Mathematical, physical, and engineering sciences</title><description>This paper considers two-dimensional periodic gravity–capillary waves propagating steadily in finite depth on a linear shear current (constant vorticity). A perturbation series solution for steady periodic waves, accurate up to the third order, is derived using a classical Stokes expansion procedure, which allows us to include surface tension effects in the analysis of wave–current interactions in the presence of constant vorticity. The analytical results are then compared with numerical computations with the full equations. The main results are (i) the phase velocity is strongly dependent on the value of the vorticity; (ii) the singularities (Wilton singularities) in the Stokes expansion in powers of wave amplitude that correspond to a Bond number of 1/2 and 1/3, which are the consequences of the non-uniformity in the ordering of the Fourier coefficients, are found to be influenced by vorticity; (iii) different surface profiles of capillary–gravity waves are computed and the effect of vorticity on those profiles is shown to be important, in particular that the solutions exhibit type-2-like wave features, characterized by a secondary maximum on the surface profile with a trough between the two maxima.</description><subject>Amplitude</subject><subject>Approximation</subject><subject>Gravity waves</subject><subject>Interfacial tension</subject><subject>Mathematical constants</subject><subject>Phase velocity</subject><subject>Vorticity</subject><subject>Water waves</subject><subject>Wave propagation</subject><subject>Waves</subject><issn>1364-5021</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2016</creationdate><recordtype>article</recordtype><sourceid/><recordid>eNpjYeA0NDYz0TU1MDLkYOAqLs4yMDCwNLUw52TwcC9KLMssqXzUMCU5sSAzJyexqFKhPLEstVghM08hLTMvsyRVISW1oCRDIR_Iz8kvL1bIT1NIzs8rLknMK1Eoyy8qyUwGGsDDwJqWmFOcyguluRlk3VxDnD10s4pL8oviC4oyc4FGxxuZGZpaWpqZGxOSBwDU8zjS</recordid><startdate>20161101</startdate><enddate>20161101</enddate><creator>Hsu, Hung-Chu</creator><creator>Francius, Marc</creator><creator>Montalvo, Pablo</creator><creator>Kharif, Christian</creator><general>THE ROYAL SOCIETY</general><scope/></search><sort><creationdate>20161101</creationdate><title>Gravity—capillary waves in finite depth on flows of constant vorticity</title><author>Hsu, Hung-Chu ; Francius, Marc ; Montalvo, Pablo ; Kharif, Christian</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-jstor_primary_261599673</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2016</creationdate><topic>Amplitude</topic><topic>Approximation</topic><topic>Gravity waves</topic><topic>Interfacial tension</topic><topic>Mathematical constants</topic><topic>Phase velocity</topic><topic>Vorticity</topic><topic>Water waves</topic><topic>Wave propagation</topic><topic>Waves</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Hsu, Hung-Chu</creatorcontrib><creatorcontrib>Francius, Marc</creatorcontrib><creatorcontrib>Montalvo, Pablo</creatorcontrib><creatorcontrib>Kharif, Christian</creatorcontrib><jtitle>Proceedings of the Royal Society. 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A perturbation series solution for steady periodic waves, accurate up to the third order, is derived using a classical Stokes expansion procedure, which allows us to include surface tension effects in the analysis of wave–current interactions in the presence of constant vorticity. The analytical results are then compared with numerical computations with the full equations. The main results are (i) the phase velocity is strongly dependent on the value of the vorticity; (ii) the singularities (Wilton singularities) in the Stokes expansion in powers of wave amplitude that correspond to a Bond number of 1/2 and 1/3, which are the consequences of the non-uniformity in the ordering of the Fourier coefficients, are found to be influenced by vorticity; (iii) different surface profiles of capillary–gravity waves are computed and the effect of vorticity on those profiles is shown to be important, in particular that the solutions exhibit type-2-like wave features, characterized by a secondary maximum on the surface profile with a trough between the two maxima.</abstract><pub>THE ROYAL SOCIETY</pub></addata></record>
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subjects	Amplitude Approximation Gravity waves Interfacial tension Mathematical constants Phase velocity Vorticity Water waves Wave propagation Waves
title	Gravity—capillary waves in finite depth on flows of constant vorticity
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