Title

Some Nonlinear Evolution Equations In Water Waves

Abstract

This paper deals with the two- and three-dimensional nonlinear water waves generated by a steady or oscillating pressure distribution acting at the free surface of a running stream on water of finite depth h. The solutions of the corresponding linearized problems become singular depending on the relative values of the water depth, frequency, and the speed of the applied pressure leading to a resonant phenomenon. When the applied oscillatory pressure distribution moves at a resonant speed, the finite amplitude response is governed by the forced nonlinear Schrödinger (fNLS) equation. Under certain circumstances, the generated wave disturbance may not reach a steady state; in particular, for deep water, a steady state is never attained. For the case of a two-dimensional wave generated by a localized steady pressure moving at a resonant speed, the generated waves are actually of bounded amplitude and are governed by a forced Korteweg-de Vries (fKdV) equation subject to appropriate asymptotic initial conditions. A computational study of the forced KdV equation reveals that a series of solitons is generated in front of the pressure distribution. On the other hand, for the case of the three-dimensional waves induced by a localized steady pressure traveling at a resonant speed, the nonlinear response is governed by a forced Kadomtsev-Petviashvili (fKP) equation. In order to extend the range of applicability of the Boussinesq-type equations in the theory of water waves, the modified Boussinesq equations are derived in terms of the velocity potential on an arbitrary elevation and the free surface displacement. © 2000 Academic Press.

Publication Date

11-15-2000

Publication Title

Journal of Mathematical Analysis and Applications

Volume

251

Issue

2

Number of Pages

488-503

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1006/jmaa.2000.7023

Socpus ID

0034668466 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/0034668466

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