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Strong interaction of Jafari decomposition method with nonlinear fractional-order partial differential equations arising in plasma via the singular and nonsingular kernels

Saima Rashid, Rehana Ashraf, Fahd Jarad

2022AIMS Mathematics18 citationsDOIOpen Access PDF

Abstract

<abstract><p>This research utilizes the Jafari transform and the Adomian decomposition method to derive a fascinating explicit pattern for the outcomes of the KdV, mKdV, K(2,2) and K(3,3) models that involve the Caputo fractional derivative operator and the Atangana-Baleanu fractional derivative operator in the Caputo sense. The novel exact-approximate solutions are derived from the formulation of trigonometric, hyperbolic, and exponential function forms. Laser and plasma sciences may benefit from these solutions. It is demonstrated that this approach produces a simple and effective mathematical framework for tackling nonlinear problems. To provide additional context for these ideas, simulations are performed, employing a computationally packaged program to assist in comprehending the implications of solutions.</p></abstract>

Topics & Concepts

Invertible matrixMathematicsFractional calculusContext (archaeology)Nonlinear systemAdomian decomposition methodApplied mathematicsTrigonometric functionsOperator (biology)Exponential functionDifferential operatorDecompositionOrder (exchange)Partial differential equationMathematical analysisPure mathematicsPhysicsEcologyBiologyEconomicsChemistryGeneTranscription factorPaleontologyQuantum mechanicsBiochemistryGeometryRepressorFinanceFractional Differential Equations SolutionsNonlinear Waves and SolitonsDifferential Equations and Numerical Methods
Strong interaction of Jafari decomposition method with nonlinear fractional-order partial differential equations arising in plasma via the singular and nonsingular kernels | Litcius