Wronskian solutions, bilinear Bäcklund transformation, quasi-periodic waves and asymptotic behaviors for a (3+1)-dimensional generalized Kadomtsev–Petviashvili equation

IF 2.1 3区 物理与天体物理 Q2 ACOUSTICS Wave Motion Pub Date : 2024-04-16 DOI:10.1016/j.wavemoti.2024.103327
Caifeng Zhang, Zhonglong Zhao, Juan Yue
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Abstract

In this paper, we investigate the integrability of a (3+1)-dimensional generalized Kadomtsev–Petviashvili equation, which is widely used in fluid mechanics and theoretical physics. The N-soliton solution is obtained via the Hirota’s bilinear method. The Wronskian solution is derived by using the Wronskian technique for the bilinear form. Through the exchange formula, we deduce the bilinear Bäcklund transformation consisting of four equations and six parameters. In order to consider the quasi-periodic wave having complex structure, one-, two- and three-periodic waves are investigated systemically by combining the Hirota’s bilinear method with Riemann theta function. Furthermore, the corresponding graphs of periodic wave are presented by considering the geometric properties between the characteristic lines. The propagation characteristics of periodic waves are investigated by virtue of the characteristic lines. Finally, the asymptotic relationships between quasi-periodic wave solutions and soliton solutions are established theoretically under a condition of the small amplitude limit. The analytical method used in this paper can be applied in other integrable systems.

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(3+1)-dimensional generalized Kadomtsev-Petviashvili equation 的 Wronskian 解、双线性 Bäcklund 变换、准周期波和渐近行为
本文研究了广泛应用于流体力学和理论物理的 (3+1) 维广义卡多姆采夫-彼得维亚什维利方程的可积分性。通过 Hirota 双线性方法得到了 N 索利子解。Wronskian 解是通过双线性形式的 Wronskian 技术得出的。通过交换公式,我们推导出了由四个方程和六个参数组成的双线性 Bäcklund 变换。为了考虑具有复杂结构的准周期波,我们将 Hirota 双线性方法与黎曼 Theta 函数相结合,系统地研究了单、双和三周期波。此外,通过考虑特征线之间的几何特性,给出了周期波的相应图形。利用特征线研究了周期波的传播特性。最后,在小振幅极限条件下,从理论上建立了准周期波解与孤子解之间的渐近关系。本文使用的分析方法可应用于其他可积分系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Wave Motion
Wave Motion 物理-力学
CiteScore
4.10
自引率
8.30%
发文量
118
审稿时长
3 months
期刊介绍: Wave Motion is devoted to the cross fertilization of ideas, and to stimulating interaction between workers in various research areas in which wave propagation phenomena play a dominant role. The description and analysis of wave propagation phenomena provides a unifying thread connecting diverse areas of engineering and the physical sciences such as acoustics, optics, geophysics, seismology, electromagnetic theory, solid and fluid mechanics. The journal publishes papers on analytical, numerical and experimental methods. Papers that address fundamentally new topics in wave phenomena or develop wave propagation methods for solving direct and inverse problems are of interest to the journal.
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