Your search keyword '"sine-gordon expansion method"' showing total 5 results

1. Numerous explicit soliton solutions to the fractional simplified Camassa-Holm equation through two reliable techniques

Author

M. Ayesha Khatun, Mohammad Asif Arefin, M. Ali Akbar, and M. Hafiz Uddin

Subjects

Exact wave solution, sine-Gordon expansion method, Extended tanh function method, Space–time fractional Camassa-Holm equation, Complex transformation, Engineering (General). Civil engineering (General), TA1-2040

Abstract

In this study, the closed-form wave solutions has been examined to the space–time fractional simplified Camassa-Holm equation through two potential techniques, namely the sine-Gordon expansion approach and the extended tanh function scheme. The equation explains the dispersion effects of several phenomena, including liquid drop patterning in plasma, fluid flow, fission and fusion processes, acoustics, control theory, etc. The fractional-order equation is transformed into a nonlinear equation through a complex transformation. Diverse solutions are determined, and for specified parametric values, the solutions are graphically assessed by depicting 3D and contour plots that provide kinks, singular kinks, plane-shaped, bell-shaped, and other types of solitons. All derived solutions are substituted into the original equation to ensure their accuracy, and the obtained solutions are compared with existing solutions in the literature to demonstrate their novelty. It is noteworthy that the suggested techniques are reliable, competent, and potential mathematical tools to establish closed-form wave solutions.

Published

2023

2. Soliton solutions of the generalized Davey-Stewartson equation with full nonlinearities via three integrating schemes

Author

Saima Arshed, Nauman Raza, and Monairah Alansari

Subjects

Traveling wave solution, The first integral method, Sine-Gordon expansion method, exp(-Φ(ξ))-expansion method, Engineering (General). Civil engineering (General), TA1-2040

Abstract

This paper considers the generalized Davey-Stewartson equation that is used to investigate the dynamics of wave propagation in water of finite depth under the effects of gravity force and surface tension. The model is considered in the presence of full nonlinearity. The main objective of this paper is to extract soliton solutions of the generalized Davey-Stewartson equation. Three state-of-the-art integration schemes, namely exp(-Φ(ξ))-expansion method, the first integral method and the Sine-Gordon expansion method have been employed for obtaining the desired soliton solutions. The proposed methods successfully attain different structures of explicit solutions such as bright, dark, singular, rational and periodic solitary wave solutions. All the newly found solutions are discussed with their existence criteria. The 2D and 3D portraits are also shown for some of the reported solutions.

Published

2021

3. Soliton solutions of the generalized Davey-Stewartson equation with full nonlinearities via three integrating schemes.

Author

Arshed, Saima, Raza, Nauman, and Alansari, Monairah

Subjects

WATER waves, THEORY of wave motion, SURFACE forces, SURFACE tension, WATER depth, SOLITONS, SHALLOW-water equations, SINE-Gordon equation

Abstract

This paper considers the generalized Davey-Stewartson equation that is used to investigate the dynamics of wave propagation in water of finite depth under the effects of gravity force and surface tension. The model is considered in the presence of full nonlinearity. The main objective of this paper is to extract soliton solutions of the generalized Davey-Stewartson equation. Three state-of-the-art integration schemes, namely exp (- Φ (ξ)) -expansion method, the first integral method and the Sine-Gordon expansion method have been employed for obtaining the desired soliton solutions. The proposed methods successfully attain different structures of explicit solutions such as bright, dark, singular, rational and periodic solitary wave solutions. All the newly found solutions are discussed with their existence criteria. The 2D and 3D portraits are also shown for some of the reported solutions. [ABSTRACT FROM AUTHOR]

Published

2021

4. Chiral bright and dark soliton solutions of Schrödinger's equation in (1 + 2)-dimensions.

Author

Raza, Nauman and Arshed, Saima

Subjects

SCHRODINGER equation, SOLITONS, NONLINEAR Schrodinger equation, SINE-Gordon equation

Abstract

In this work, (1 + 2)-dimensional chiral nonlinear Schrödinger's equation is considered. The optical soliton solutions for the aforementioned model are extracted in a systematic way. Two robust and efficient integration tools such as the first integral method and the sine-Gordon expansion method are used to extract abundant solution such as dark, bright soliton as well as complexitons. The parametric conditions for the validity of these solutions are also listed along with the solutions. The physical meaning of the geometrical structures for some solutions is discussed for different choices of the free parameters. [ABSTRACT FROM AUTHOR]

Published

2020

5. Numerous explicit soliton solutions to the fractional simplified Camassa-Holm equation through two reliable techniques.

Author

Khatun, M. Ayesha, Arefin, Mohammad Asif, Akbar, M. Ali, and Uddin, M. Hafiz

Subjects

SINE-Gordon equation, NONLINEAR equations, FLUID flow, EQUATIONS, KLEIN-Gordon equation, SOLITONS

Abstract

In this study, the closed-form wave solutions has been examined to the space–time fractional simplified Camassa-Holm equation through two potential techniques, namely the sine-Gordon expansion approach and the extended tanh function scheme. The equation explains the dispersion effects of several phenomena, including liquid drop patterning in plasma, fluid flow, fission and fusion processes, acoustics, control theory, etc. The fractional-order equation is transformed into a nonlinear equation through a complex transformation. Diverse solutions are determined, and for specified parametric values, the solutions are graphically assessed by depicting 3D and contour plots that provide kinks, singular kinks, plane-shaped, bell-shaped, and other types of solitons. All derived solutions are substituted into the original equation to ensure their accuracy, and the obtained solutions are compared with existing solutions in the literature to demonstrate their novelty. It is noteworthy that the suggested techniques are reliable, competent, and potential mathematical tools to establish closed-form wave solutions. [ABSTRACT FROM AUTHOR]

Published

2023