简化的修正卡马萨-霍尔姆方程和朗道-金斯堡-希格斯方程的新游波解法

Dhaka University Journal of Science Pub Date : 2024-03-25 DOI:10.3329/dujs.v72i1.71029

Md Sagib, Bishnu Pada Ghosh, Nepal Chandra Roy

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摘要

研究人员对 (1+1)-dimensional Camassa-Holm 和 Landau-Ginzburg-Higgs 方程很感兴趣，因为这两个方程可用于研究浅海平底水域的单向波传播，以及表现出色散系统和超导性的非线性介质。这项工作有效地开发了所述模型的精确波解，这可能会对描述与这些现象相关的非线性动力学行为产生重大影响。利用扩展-展开技术，获得了一系列以双曲函数、三角函数和有理函数为特征的渐进波解。这些解以三维剖面显示，具有各种形状，包括扭结、奇异扭结、周期、奇异周期等。这些图讨论了解的物理意义，并认为本研究中使用的方法非常有效，能够找到非线性模型的解析解：7-13, 2024 (January)

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New Traveling Wave Solutions to the Simplified Modified Camassa–Holm Equation and the Landau-Ginsburg-Higgs Equation

Researchers are interested in the (1+1)-dimensional Camassa-Holm and Landau-Ginzburg-Higgs equations as they allow for the study of unidirectional wave propagation in shallow waters with a flat seabed, as well as nonlinear media exhibiting dispersion systems and superconductivity. This work has effectively developed exact wave solutions to the stated models, which may have significant consequences for characterising the nonlinear dynamical behaviour related to the phenomena. The extended -expansion technique is employed to procure a diverse array of progressive wave solutions characterized by hyperbolic, trigonometric, and rational functions. The solutions are shown as 3D profiles with a variety of shapes, including kink, singular kink, periodic, singular periodic, etc. The physical significance of the solutions is discussed by these plots, and the approach used in this study is considered efficient and capable of finding analytical solutions for the nonlinear models. Dhaka Univ. J. Sci. 72(1): 7-13, 2024 (January)

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Dhaka University Journal of Science

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