一类(2+1)维Sinh-Gordon方程的一般孤子解和(半)有理解

IF 1.4 4区物理与天体物理 Q2 MATHEMATICS, APPLIED Journal of Nonlinear Mathematical Physics Pub Date : 2023-10-10 DOI:10.1007/s44198-023-00147-z

Sheng-Nan Wang, Guo-Fu Yu, Zuo-Nong Zhu

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引用次数: 0

摘要

摘要本文研究了一类(2+1)维sinh-Gordon方程的解。结合Hirota的双线性方法和Kadomtsev-Petviashvili层次约简方法，导出了一般孤子和(半)有理解。通解表示为$$N\times N$$ N × N gram型行列式。当行列式大小N为偶数时，我们生成位于恒定背景上的孤子、线呼吸子和(半)有理解。特别地，我们通过渐近分析证明了孤子的碰撞是完全弹性的。当N为奇数时，我们得到周期背景下的精确解。用图表分析了这些解的动力学行为。对于有理解，我们展示了块的相互作用。对于半有理解，我们找到了块与孤子之间的相互作用解。

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General Soliton and (Semi-)Rational Solutions of a (2+1)-Dimensional Sinh-Gordon Equation

Abstract In this paper, we investigate solutions of a (2+1)-dimensional sinh-Gordon equation. General solitons and (semi-)rational solutions are derived by the combination of Hirota’s bilinear method and Kadomtsev-Petviashvili hierarchy reduction approach. General solutions are expressed as $$N\times N$$ N × N Gram-type determinants. When the determinant size N is even, we generate solitons, line breathers, and (semi-)rational solutions located on constant backgrounds. In particular, through the asymptotic analysis we prove that the collision of solitons are completely elastic. When N is odd, we derive exact solutions on periodic backgrounds. The dynamical behaviors of those derived solutions are analyzed with plots. For rational solutions, we display the interaction of lumps. For semi-rational solutions, we find the interaction solutions between lumps and solitons.

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来源期刊

Journal of Nonlinear Mathematical Physics PHYSICS, MATHEMATICAL-PHYSICS, MATHEMATICAL

CiteScore

1.60

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： Journal of Nonlinear Mathematical Physics (JNMP) publishes research papers on fundamental mathematical and computational methods in mathematical physics in the form of Letters, Articles, and Review Articles. Journal of Nonlinear Mathematical Physics is a mathematical journal devoted to the publication of research papers concerned with the description, solution, and applications of nonlinear problems in physics and mathematics. The main subjects are: -Nonlinear Equations of Mathematical Physics- Quantum Algebras and Integrability- Discrete Integrable Systems and Discrete Geometry- Applications of Lie Group Theory and Lie Algebras- Non-Commutative Geometry- Super Geometry and Super Integrable System- Integrability and Nonintegrability, Painleve Analysis- Inverse Scattering Method- Geometry of Soliton Equations and Applications of Twistor Theory- Classical and Quantum Many Body Problems- Deformation and Geometric Quantization- Instanton, Monopoles and Gauge Theory- Differential Geometry and Mathematical Physics