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Uncovering the stochastic dynamics of solitons of the Chaffee–Infante equation

Shabir Ahmad, Nidhal Becheikh, Lioua Kolsi, Taseer Muhammad, Zubair Ahmad, Mohammad Khalid Nasrat

2024Scientific Reports11 citationsDOIOpen Access PDF

Abstract

In this paper, we apply stochastic differential equations with the Wiener process to investigate the soliton solutions of the Chaffee-Infante (CI) equation. The CI equation, a fundamental model in mathematical physics, explains concepts such as wave propagation and diffusion processes. Exact soliton solutions are obtained through the application of the modified extended tanh (MET) method. The obtained wave figures in 3D, 2D, and contour are highly localized and determine an individual frequency shift under the behavior of sharp peak, periodic wave, and singular soliton. The MET method shows to be a valuable analytical tool for obtaining soliton solutions, essential for understanding the dynamics of nonlinear wave phenomena. Numerical simulations enable us to explore soliton solutions in two and three dimensions, shedding light on their properties over time. Our results have wide applications in various domains, including stochastic processes and nonlinear dynamics, impacting advancements in physics, engineering, finance, biology, and beyond.

Topics & Concepts

Dynamics (music)Computer scienceStochastic dynamicsComputational biologyStatistical physicsPhysicsBiologyAcousticsNonlinear Waves and SolitonsNonlinear Dynamics and Pattern FormationFractional Differential Equations Solutions