AIMS Mathematics (Jan 2024)

Efficient approximate analytical technique to solve nonlinear coupled Jaulent–Miodek system within a time-fractional order

  • Hegagi Mohamed Ali ,
  • Kottakkaran Sooppy Nisar,
  • Wedad R. Alharbi,
  • Mohammed Zakarya

DOI
https://doi.org/10.3934/math.2024274
Journal volume & issue
Vol. 9, no. 3
pp. 5671 – 5685

Abstract

Read online

In this article, we considered the nonlinear time-fractional Jaulent–Miodek model (FJMM), which is applied to modeling many applications in basic sciences and engineering, especially physical phenomena such as plasma physics, fluid dynamics, electromagnetic waves in nonlinear media, and many other applications. The Caputo fractional derivative (CFD) was applied to express the fractional operator in the mathematical formalism of the FJMM. We implemented the modified generalized Mittag-Leffler method (MGMLFM) to show the analytical approximate solution of FJMM, which is represented by a set of coupled nonlinear fractional partial differential equations (FPDEs) with suitable initial conditions. The suggested method produced convergent series solutions with easily computable components. To demonstrate the accuracy and efficiency of the MGMLFM, a comparison was made between the solutions obtained by MGMLFM and the known exact solutions in some tables. Also, the absolute error was compared with the absolute error provided by some of the other famous methods found in the literature. Our findings confirmed that the presented method is easy, simple, reliable, competitive, and did not require complex calculations. Thus, it can be extensively applied to solve more linear and nonlinear FPDEs that have applications in various areas such as mathematics, engineering, and physics.

Keywords