两层流体中中等振幅的内孤立波和余弦波：扩展的KdV方程近似

IF 2.7 3区数学 Q1 MATHEMATICS, APPLIED

Physica D: Nonlinear Phenomena Pub Date : 2025-05-29 DOI:10.1016/j.physd.2025.134723

Nerijus Sidorovas , Dmitri Tseluiko , Wooyoung Choi , Karima Khusnutdinova

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引用次数: 0

摘要

从由强非线性长波模型导出的扩展Korteweg-de Vries （eKdV）方程的观点出发，考虑具有线性剪切流的两层流体中的行内波。利用渐近Kodama-Fokas-Liu近恒等变换，将eKdV方程映射为Gardner方程。与常用的截断Gardner方程相比，改进的Gardner方程具有不同的三次非线性系数和额外的输运项。然后，我们利用这种映射构造了eKdV方程的近似孤立波和余弦波解，并通过与没有电流的强非线性两层长波母系统的直接数值模拟比较，测试了这些近似的有效性和性能，以及截断和改进的Gardner和eKdV方程的性能。

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Internal solitary and cnoidal waves of moderate amplitude in a two-layer fluid: the extended KdV equation approximation

We consider travelling internal waves in a two-layer fluid with linear shear currents from the viewpoint of the extended Korteweg–de Vries (eKdV) equation derived from a strongly-nonlinear long-wave model. Using an asymptotic Kodama-Fokas-Liu near-identity transformation, we map the eKdV equation to the Gardner equation. This improved Gardner equation has a different cubic nonlinearity coefficient and an additional transport term compared to the frequently used truncated Gardner equation. We then construct approximate solitary and cnoidal wave solutions of the eKdV equation using this mapping and test validity and performance of these approximations, as well as performance of the truncated and improved Gardner and eKdV equations, by comparison with direct numerical simulations of the strongly-nonlinear two-layer long-wave parent system in the absence of currents.

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来源期刊

Physica D: Nonlinear Phenomena 物理-物理：数学物理

CiteScore

7.30

自引率

7.50%

发文量

213

审稿时长

65 days

期刊介绍： Physica D (Nonlinear Phenomena) publishes research and review articles reporting on experimental and theoretical works, techniques and ideas that advance the understanding of nonlinear phenomena. Topics encompass wave motion in physical, chemical and biological systems; physical or biological phenomena governed by nonlinear field equations, including hydrodynamics and turbulence; pattern formation and cooperative phenomena; instability, bifurcations, chaos, and space-time disorder; integrable/Hamiltonian systems; asymptotic analysis and, more generally, mathematical methods for nonlinear systems.