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Numerical computation of fractional Kersten-Krasil’shchik coupled KdV-mKdV system occurring in multi-component plasmas

AmitGoswami, Sushila Sushila, Jagdev Singh, Devendra Kumar

2020AIMS Mathematics70 citationsDOIOpen Access PDF

Abstract

In this paper, we study the nonlinear behaviour of multi-component plasma. For this an efficient technique, called Homotopy perturbation Sumudu transform method (HPSTM) is introduced. The power of method is represented by solving the time fractional Kersten-Krasiloshchik coupled KdV-mKdV nonlinear system. This coupled nonlinear system usually arises as a description of waves in multi-component plasmas, traffic flow, electric circuits, electrodynamics and elastic media, shallow water waves etc. The prime purpose of this study is to provide a new class of technique, which need not to use small parameters for finding approximate solution of fractional coupled systems and eliminate linearization and unrealistic factors. Numerical solutions represent that proposed technique is efficient, reliable, and easy to use to large variety of physical systems. This study shows that numerical solutions gained by HPSTM are very accurate and effective for analysis the nonlinear behaviour of system. This study also states that HPSTM is much easier, more convenient and efficient than other available analytical methods.

Topics & Concepts

Nonlinear systemLinearizationComputationComponent (thermodynamics)Korteweg–de Vries equationNumerical analysisHomotopy analysis methodPerturbation (astronomy)MathematicsApplied mathematicsComputer scienceMathematical analysisAlgorithmPhysicsQuantum mechanicsThermodynamicsFractional Differential Equations SolutionsNonlinear Waves and SolitonsNumerical methods for differential equations
Numerical computation of fractional Kersten-Krasil’shchik coupled KdV-mKdV system occurring in multi-component plasmas | Litcius