Application of modified extended direct algebraic method to nonlinear fractional diffusion reaction equation with cubic nonlinearity

Application of modified extended direct algebraic method to nonlinear fractional diffusion reaction equation with cubic nonlinearity

Abstract This work uses the modified Extended Direct Algebraic Method (mEDAM) with conformable derivatives to obtain accurate solutions for the diffusion-reaction equation with cubic nonlinearity and the nonlinear fractional generalised density-independent DR problem. We use fractional derivatives i...

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Bibliographic Details
Main Authors: Muhammad Bilal, Alamgir Khan, Ikram Ullah, Hasib Khan, Jehad Alzabut, Hisham Mohammad Alkhawar
Format: Article
Language:English
Published: SpringerOpen 2025-02-01
Series:Boundary Value Problems
Subjects:
mEDAM technique
Conformable derivatives
Solitons
Partial differential equations
Density-independent DR equation
Cubic nonlinearity
Online Access:https://doi.org/10.1186/s13661-025-01997-w
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Summary:Abstract This work uses the modified Extended Direct Algebraic Method (mEDAM) with conformable derivatives to obtain accurate solutions for the diffusion-reaction equation with cubic nonlinearity and the nonlinear fractional generalised density-independent DR problem. We use fractional derivatives in the conformable sense to achieve precise polynomial-form solutions by converting the equations into autonomous two-dimensional plane systems. The technique solves nonlinear ordinary differential equations (ODEs) produced by a fractional transformation to produce travelling wave solutions. Through the visualisation of various solution profiles, as periodic, shock, kink, anti-kink, and soliton waves, numerical simulations offer important insights into the dynamics of nonlinear fractional partial differential equations. This work builds on earlier research and broadens our understanding of complex events.
ISSN:1687-2770

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