Numerical Analysis and Approximate Travelling Wave Solutions for a Higher Order Internal Wave System

AUTOR(ES)

LESINHOVSKI, W. C.; FABREGAS, A. RUIZ DE ZARATE

FONTE

Trends in Computational and Applied Mathematics

DATA DE PUBLICAÇÃO

2022

RESUMO

ABSTRACT In this work we focus on the numerical solution of a higher order bidirectional nonlinear model of Boussinesq type involving a nonlocal operator. Based on a von Neumann stability analysis for the linearized problem, an efficient and stable scheme for the nonlinear system is proposed. Our method is based on a numerical scheme known from the literature that solves satisfactorily a lower order linear system. Additionally, approximate periodic travelling wave solutions profiles for the higher order nonlinear system are presented. Such approximate travelling wave solutions are obtained from a solitary wave family of solutions for the Intermediate Long Wave (ILW) equation and the regularized Intermediate Long Wave (rILW) equation.

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