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Propagation of solitary wave solutions to (4+1)-dimensional Davey–Stewartson–Kadomtsev–Petviashvili equation arise in mathematical physics and stability analysis

M.A. El‐Shorbagy, Sonia Akram, Mati ur Rahman

2024Partial Differential Equations in Applied Mathematics40 citationsDOIOpen Access PDF

Abstract

This innovative study simulates the (4+1)-dimensional Davey–Stewartson–Kadomtsev–Petviashvili (DSKP) equation, which has anomalous applications in the field of mathematical physics. The current research has two basic pillars. Firstly, numerous novel soliton solutions are synthesised in distinct formats, such as dark, bright, periodic, combo, W-shape, mixed trigonometric, exponential, and rational, based on the modified sardar sub-equation (MSSE) method and the improved F-expansion method. Secondly, the stability analysis of the selected model is manifested to study modulation instability (MI) gain. Furthermore, for the physical demonstration of the acquired solutions in 3D and 2D, contour and density plots are depicted. The discovered results have a distinctive feature that has not been developed before and indicate a good balance between the nonlinear physical components. Also, the resulting structure of the acquired results can enrich the nonlinear dynamical behaviours of the given system and may be useful in many domains, such as mathematical physics and fluid dynamics, as well as demonstrate that the approaches used are effective and worthy of validation.

Topics & Concepts

TrigonometrySolitonNonlinear systemInstabilityPhysicsStability (learning theory)Exponential functionKadomtsev–Petviashvili equationField (mathematics)Mathematical analysisApplied mathematicsClassical mechanicsMathematical physicsMathematicsPure mathematicsComputer scienceQuantum mechanicsBurgers' equationMachine learningNonlinear Waves and SolitonsNonlinear Photonic SystemsFractional Differential Equations Solutions
Propagation of solitary wave solutions to (4+1)-dimensional Davey–Stewartson–Kadomtsev–Petviashvili equation arise in mathematical physics and stability analysis | Litcius