通过黎曼-希尔伯特问题求非局部多分量高阶格尔吉科夫-伊万诺夫方程的孤子解

IF 3.6 2区数学 Q1 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Fractal and Fractional Pub Date : 2024-03-19 DOI:10.3390/fractalfract8030177

Jinshan Liu, Huanhe Dong, Yong Fang, Yong Zhang

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引用次数: 0

摘要

高阶格尔吉科夫-伊万诺夫（HOGI）方程的拉克斯对被扩展到多分量公式。然后，我们首先对这个新系统推导出四种不同类型的非局部群还原。为了构建这四个非局部方程的解，我们使用了黎曼-希尔伯特方法。与局部 HOGI 方程相比，非局部方程的解不仅取决于局部空间和时间变量，还取决于非局部变量。为了展示其动态行为，我们考虑了反时空多分量 HOGI方程及其黎曼-希尔伯特问题。当黎曼-希尔伯特问题有规律时，可以给出积分形式解。反之，则可以明确地得到精确解。最后，作为具体例子，给出了与局部方程不同的双分量非局部 HOGI 方程的周期解。

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The Soliton Solutions for Nonlocal Multi-Component Higher-Order Gerdjikov–Ivanov Equation via Riemann–Hilbert Problem

The Lax pairs of the higher-order Gerdjikov–Ivanov (HOGI) equation are extended to the multi-component formula. Then, we first derive four different types of nonlocal group reductions to this new system. To construct the solution of these four nonlocal equations, we utilize the Riemann–Hilbert method. Compared to the local HOGI equation, the solutions of nonlocal equations not only depend on the local spatial and time variables, but also the nonlocal variables. To exhibit the dynamic behavior, we consider the reverse-spacetime multi-component HOGI equation and its Riemann–Hilbert problem. When the Riemann–Hilbert problem is regular, the integral form solution can be given. Conversely, the exact solutions can be obtained explicitly. Finally, as concrete examples, the periodic solutions of the two-component nonlocal HOGI equation are given, which is different from the local equation.

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来源期刊

Fractal and Fractional MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-

CiteScore

4.60

自引率

18.50%

发文量

632

审稿时长

11 weeks

期刊介绍： Fractal and Fractional is an international, scientific, peer-reviewed, open access journal that focuses on the study of fractals and fractional calculus, as well as their applications across various fields of science and engineering. It is published monthly online by MDPI and offers a cutting-edge platform for research papers, reviews, and short notes in this specialized area. The journal, identified by ISSN 2504-3110, encourages scientists to submit their experimental and theoretical findings in great detail, with no limits on the length of manuscripts to ensure reproducibility. A key objective is to facilitate the publication of detailed research, including experimental procedures and calculations. "Fractal and Fractional" also stands out for its unique offerings: it warmly welcomes manuscripts related to research proposals and innovative ideas, and allows for the deposition of electronic files containing detailed calculations and experimental protocols as supplementary material.