A MODERN TRAVELING WAVE SOLUTION FOR CAPUTO-FRACTIONAL KLEIN–GORDON EQUATIONS

Fractals Pub Date : 2024-05-29 DOI:10.1142/s0218348x24500841
AHMAD EL-AJOU, RANIA SAADEH, ALIAA BURQAN, MAHMOUD ABDEL-ATY
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Abstract

This research paper introduces a novel approach to deriving traveling wave solutions (TWSs) for the Caputo-fractional Klein–Gordon equations. This research presents a distinct methodological advancement by introducing TWSs of a particular time-fractional partial differential equation, utilizing a non-local fractional operator, specifically the Caputo derivative. To achieve our goal, a novel transformation is considered, that converts a time-fractional partial differential equation into fractional ordinary differential equations, enabling analytical solutions through various analytical methods. This paper employs the homotopy analysis method to achieve the target objectives. To demonstrate the efficiency and applicability of the proposed transform and method, two examples are discussed and analyzed in figures.

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卡普托-分数克莱因-戈登方程的现代行波解法
本研究论文介绍了一种推导卡普托分数克莱因-戈登方程行波解(TWS)的新方法。这项研究利用非局部分数算子,特别是卡普托导数,引入了特定时分数偏微分方程的行波解,在方法论上取得了显著进步。为了实现我们的目标,我们考虑了一种新颖的转换,它将时分数偏微分方程转换为分数常微分方程,从而通过各种分析方法实现分析求解。本文采用同调分析方法来实现目标。为了证明所提出的变换和方法的效率和适用性,本文通过两个例子进行了讨论和分析。
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