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Novel dynamics of the fractional KFG equation through the unified and unified solver schemes with stability and multistability analysis

Noor Alam, Mohammad Safi Ullah, Taher A. Nofal, Hamdy M. Ahmed, Karim K. Ahmed, Mahmoud A. AL-Nahhas

2024Nonlinear Engineering36 citationsDOIOpen Access PDF

Abstract

Abstract The nonlinear fractional Klein–Fock–Gordon (KFG) equation represents an advanced theoretical physics and applied mathematical tool that provides a more extraordinary framework for studying fields with complex and non-standard behaviors. Here, we aim to delve into the new wave profiles of this fractional KGF equation. Initially, this system is successfully converted into an ordinary differential equation (ODE) with the help of wave conversion, and the ODE is solved through the unified and unified solver techniques for the first time. In addition, the 3D and 2D plots of these solutions are drawn using a mathematical software package for different parameters with different values. Therefore, some unique waveforms can be found in these solutions. Moreover, stability and multistability analyses are prepared and shown graphically to confirm the converging limitations of appropriate parameters. This work will be practiced more effectively in future research on nonlinear partial differential models.

Topics & Concepts

MultistabilitySolverStability (learning theory)Applied mathematicsMathematicsDynamics (music)Computer sciencePhysicsMathematical optimizationNonlinear systemQuantum mechanicsMachine learningAcousticsNonlinear Waves and SolitonsFractional Differential Equations SolutionsAdvanced Mathematical Physics Problems