Propagation patterns of dromion and other solitons in nonlinear Phi-Four ($ \phi^4 $) equation

Author:

Aldandani Mohammed1,Altherwi Abdulhadi A.2,Abushaega Mastoor M.2

Affiliation:

1. Mathematics Department, College of Science, Jouf University, P. O. Box 2014, Sakaka, Kingdom of Saudi Arabia

2. Department of Industrial Engineering, College of Engineering and Computer Science Jazan University, Jazan, Kingdom of Saudi Arabia

Abstract

<abstract><p>The Phi-Four (also embodied as $ \phi^4 $) equation (PFE) is one of the most significant models in nonlinear physics, that emerges in particle physics, condensed matter physics and cosmic theory. In this study, propagating soliton solutions for the PFE were obtained by employing the extended direct algebraic method (EDAM). This transformational method reformulated the model into an assortment of nonlinear algebraic equations using a series-form solution. These equations were then solved with the aid of Maple software, producing a large number of soliton solutions. New families of soliton solutions, including exponential, rational, hyperbolic, and trigonometric functions, are included in these solutions. Using 3D, 2D, and contour graphs, the shape, amplitude, and propagation behaviour of some solitons were visualized which revealed the existence of kink, shock, bright-dark, hump, lump-type, dromion, and periodic solitons in the context of PFE. The study was groundbreaking as it extended the suggested strategy to the PFE that was being aimed at, yielding a significant amount of soliton wave solutions while providing new insights into the behavioral characteristics of soliton. This approach surpassed previous approaches by offering a systematic approach to solving nonlinear problems in analogous challenging situations. Furthermore, the results also showed that the suggested method worked well for building families of propagating soliton solutions for intricate models such as the PFE.</p></abstract>

Publisher

American Institute of Mathematical Sciences (AIMS)

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