Your search keyword '"sine-gordon expansion method"' showing total 10 results

1. NOVEL TRAVELING-WAVE SOLUTIONS OF SPATIAL-TEMPORAL FRACTIONAL MODEL OF DYNAMICAL BENJAMIN–BONA–MAHONY SYSTEM.

Author

AL-SMADI, MOHAMMED, AL-OMARI, SHRIDEH, ALHAZMI, SHARIFAH, KARACA, YELIZ, and MOMANI, SHAHER

Subjects

*PARTIAL differential equations, *ORDINARY differential equations, *NONLINEAR differential equations, *FRACTIONAL differential equations, *NONLINEAR equations, *NONLINEAR evolution equations, *CAPUTO fractional derivatives

Abstract

This paper investigates the dynamics of exact traveling-wave solutions for nonlinear spatial and temporal fractional partial differential equations with conformable order derivatives arising in nonlinear propagation waves of small amplitude including nonlinear fractional modified Benjamin–Bona–Mahony equation, fractional Zakharov–Kuznetsov–Benjamin–Bona–Mahony equation and fractional (2+1)-dimensional Kadomtsev–Petviashvili–Benjamin–Bona–Mahony equation as well. By utilizing the Sine-Gordon expansion method (SGEM), new real- and complex-valued exact traveling-wave solutions are reported by preferring suitable values of physical free parameters. The nonlinear governing equations are reduced into auxiliary nonlinear ordinary differential equations with aid of fractional traveling-wave transformation, in which the fractional derivative is evaluated in a conformable sense. The productivity process of the proposed method for predicting the desirable solutions is also provided. Some of the obtained solutions are simulated graphically in 3D and contour plots. Meanwhile, the effects of the fractional parameter α in the space and the time direction are illustrated in 2D plots to ensure the novelty, applicability and credibility of the SGEM. These results reveal that the suggested method is general and adequate for dealing with nonlinear models featuring fractional derivatives and can be employed to analyze wide classes of complex phenomena of partial differential equations occurring in engineering and nonlinear dynamics. [ABSTRACT FROM AUTHOR]

Published

2023

2. New solitary wave patterns of Fokas-System arising in monomode fiber communication systems.

Author

Alrebdi, Tahani A., Raza, Nauman, Arshed, Saima, and Abdel-Aty, Abdel-Haleem

Subjects

*TELECOMMUNICATION systems, *NONLINEAR evolution equations, *NONLINEAR optics, *SINGLE-mode optical fibers, *NONLINEAR waves, *LIGHT propagation

Abstract

In this article, the Fokas-system represents the nonlinear pulse propagation in monomode optical fibers. Soliton solutions of the Fokas-system has been determined using three algorithmic schemes including singular manifold method, the G ′ G 2 -expansion method and Sine-Gordon expansion. The proposed methods have been applied to extract various types of solutions such as bright, dark, singular, periodic and complexitons. Moreover, the constraint conditions for the existence of the solutions will be discussed. To grasp the debated approaches, the obtained solutions are discussed with 3D surface plots and 2D line plots to visualize and support the theoretical results. The extracted results indicate that the proposed methods are excellently explore nonlinear evolution equations. The presented paper provides full spectrum of solutions for the Fokas-System. These novel approaches are used through the symbolic computations impart a dynamical and potent mathematical implement for solving various benevolent nonlinear wave problems. The resulting solutions are novel, intriguing, and potentially helpful for understanding energy transit and diffusion processes in mathematical models of several disciplines of interest, including nonlinear optics. [ABSTRACT FROM AUTHOR]

Published

2022

3. Stable soliton solutions to the shallow water waves and ion-acoustic waves in a plasma.

Author

Abdul Kayum, Md., Ali Akbar, M., and Osman, M. S.

Subjects

*PLASMA waves, *ION acoustic waves, *WATER depth, *GRAVITY waves, *SHALLOW-water equations, *NONLINEAR evolution equations, *SOLITONS

Abstract

The Kawahara equation (KE) and the modified Kawahara equation (MKE) are important modeling equations to interpret shallow water waves with surface tension, magneto-acoustic wave in plasma and gravity waves. In this study, the stable broad-ranging soliton solutions including the well-known bell-shape soliton, anti-bell shape soliton, periodic soliton, compacton, kink, etc. are established through the sine-Gordon expansion (SGE) method. The effect of the physical parameters, namely the dispersion and perturbed dispersive coefficients in the surface elevation are shown through the figure. The surface elevations remain ascertainable for diverse values of the physical and the associated free parameters. The 3D and contour plot of the ascertained solutions clarifies the surface wave properties. The achieved results for each modeling equation provide a significant contribution in analyzing the ion-acoustic waves in plasma, gravity waves, the surface waves in shallow water. This study asserts that the SGE method is reliable, competent, easy and powerful for extracting closed form soliton solutions. [ABSTRACT FROM AUTHOR]

Published

2022

4. Analysis of voltage and current flow of electrical transmission lines through mZK equation

Author

M. Ali Akbar, Md. Abdul Kayum, M.S. Osman, Abdel-Haleem Abdel-Aty, and Hichem Eleuch

Subjects

Solitons, Nonlinear evolution equations, Sine-Gordon expansion method, Modified simple equation method, Modified Zakharov-Kuznetsov equation, Physics, QC1-999

Abstract

Discrete networks, nonlinear networks, high speed computer data buses, computer network connections, and cable signal distribution are analyzed using the modified Zakharov-Kuznetsov (mZK) equation as a model governing the propagation in the electrical transmission lines. In this study, we establish viable extensive traveling wave solutions with the familiar singular kink type, kink type, bell-type solution, singular bell-type solution, t-type solution, and some advanced soliton solutions through the modified simple equation (MSE) and the sine-Gordon expansion methods. The established solutions are highly stable, resilient and capable to travel long distance. The solutions obtained can determine the voltage and current flow that can be used to design the transmission lines. The density plot and three-dimensional diagrams of the solutions obtained illustrate the voltage and current distributions in the transmission line. The traveling wave solutions are found in closed-form which simplify their utilization. The implemented methods are compatible for the extraction of traveling wave solutions.

Published

2021

5. Onset of the broad-ranging general stable soliton solutions of nonlinear equations in physics and gas dynamics

Author

Md. Abdul Kayum, Shamim Ara, M.S. Osman, M. Ali Akbar, and Khaled A. Gepreel

Subjects

Klein–Gordon equation, Gas dynamics equation, Solitons, Nonlinear evolution equations, Sine-Gordon expansion method, Physics, QC1-999

Abstract

Stable soliton solutions for the nonlinear Klein–Gordon equation in condensed matter physics, particle physics, nonlinear optics, solid state physics and the gas dynamics equation ensuing in shock fronts have been established by putting use of the sine-Gordon expansion procedure. We establish the broad-ranging familiar stable wave solutions related with some free parameters, for particular values of which some of the subsisting solutions in the literature are re-established and several fresh solutions are formulated. The contour and 3D shapes are depicted to describe the physical phenomena of the established solutions. Scores of solitary wave solutions are obtained such as, compacton, smooth soliton, anti-bell type solitary wave, bell-type solitary wave, kink and some other new types of solitary wave solutions. The obtained results might play important role in optics, quantum mechanics, mathematical physics and engineering. It is noticeable to inspect that the sine-Gordon expansion procedure is an efficient, competent and straightforward mathematical tool to ascertain exact solitary wave solutions.

Published

2021

6. New optical solitary wave solutions of Fokas-Lenells equation in optical fiber via Sine-Gordon expansion method.

Author

Ali, Khalid K., Osman, M.S., and Abdel-Aty, Mahmoud

Subjects

NONLINEAR evolution equations, NONLINEAR equations, SINE-Gordon equation, EQUATIONS

Abstract

This article presents soliton solutions to a generalized nonlinear Fokas-Lenells equation via the Sine-Gordon expansion method. To uncover the clear picture of the gained solutions, the two and three-dimensional figures for the solutions are given. It is shown that the proposed methodology provides powerful mathematical tools for obtaining the exact traveling wave solutions of different nonlinear evolution equations. [ABSTRACT FROM AUTHOR]

Published

2020

7. The sine-Gordon expansion method to look for the traveling wave solutions of the Tzitzéica type equations in nonlinear optics.

Author

Kumar, D., Hosseini, K., and Samadani, F.

Subjects

*SINE-Gordon equation, *NONLINEAR optics, *MATHEMATICAL expansion, *TRAVELING waves (Physics), *NONLINEAR evolution equations

Abstract

In this paper, using the Painleve property, the traveling wave transformation, and the sine-Gordon expansion method (SGEM), the Tzitzéica type evolution equations in nonlinear optics, including the Tzitzéica equation, the Dodd–Bullough–Mikhailov (DBM) equation, the Tzitzéica–Dodd–Bullough (TDB) equation, and the Liouville equation are studied. As a result, a series of traveling wave solutions for the Tzitzéica type equations are obtained. The efficiency of the solution methodology in exactly solving nonlinear evolution equations is confirmed. [ABSTRACT FROM AUTHOR]

Published

2017

8. Analysis of voltage and current flow of electrical transmission lines through mZK equation

Author

Abdel-Haleem Abdel-Aty, Hichem Eleuch, Mohamed S. Osman, M. Ali Akbar, and Md. Abdul Kayum

Subjects

010302 applied physics, Physics, Mathematical analysis, General Physics and Astronomy, 02 engineering and technology, Density estimation, 021001 nanoscience & nanotechnology, Solitons, 01 natural sciences, Signal, lcsh:QC1-999, Modified Zakharov-Kuznetsov equation, Modified simple equation method, Distribution (mathematics), Electric power transmission, Flow (mathematics), Transmission line, Sine-Gordon expansion method, 0103 physical sciences, Soliton, Nonlinear evolution equations, 0210 nano-technology, lcsh:Physics, Voltage

Abstract

Discrete networks, nonlinear networks, high speed computer data buses, computer network connections, and cable signal distribution are analyzed using the modified Zakharov-Kuznetsov (mZK) equation as a model governing the propagation in the electrical transmission lines. In this study, we establish viable extensive traveling wave solutions with the familiar singular kink type, kink type, bell-type solution, singular bell-type solution, t-type solution, and some advanced soliton solutions through the modified simple equation (MSE) and the sine-Gordon expansion methods. The established solutions are highly stable, resilient and capable to travel long distance. The solutions obtained can determine the voltage and current flow that can be used to design the transmission lines. The density plot and three-dimensional diagrams of the solutions obtained illustrate the voltage and current distributions in the transmission line. The traveling wave solutions are found in closed-form which simplify their utilization. The implemented methods are compatible for the extraction of traveling wave solutions.

Published

2021

9. Analysis of voltage and current flow of electrical transmission lines through mZK equation.

Author

Ali Akbar, M., Abdul Kayum, Md., Osman, M.S., Abdel-Aty, Abdel-Haleem, and Eleuch, Hichem

Abstract

• Abundant solutions of the electrical transmission lines in mZK equation are found. • Performance was done using the strategy of two different techniques. • Physical explanations are discussed for the obtained solutions. Discrete networks, nonlinear networks, high speed computer data buses, computer network connections, and cable signal distribution are analyzed using the modified Zakharov-Kuznetsov (mZK) equation as a model governing the propagation in the electrical transmission lines. In this study, we establish viable extensive traveling wave solutions with the familiar singular kink type, kink type, bell-type solution, singular bell-type solution, t-type solution, and some advanced soliton solutions through the modified simple equation (MSE) and the sine-Gordon expansion methods. The established solutions are highly stable, resilient and capable to travel long distance. The solutions obtained can determine the voltage and current flow that can be used to design the transmission lines. The density plot and three-dimensional diagrams of the solutions obtained illustrate the voltage and current distributions in the transmission line. The traveling wave solutions are found in closed-form which simplify their utilization. The implemented methods are compatible for the extraction of traveling wave solutions. [ABSTRACT FROM AUTHOR]

Published

2021

10. Onset of the broad-ranging general stable soliton solutions of nonlinear equations in physics and gas dynamics.

Author

Kayum, Md. Abdul, Ara, Shamim, Osman, M.S., Akbar, M. Ali, and Gepreel, Khaled A.

Abstract

• The broad-ranging general stable soliton solutions to some nonlinear equations have been established associated with parameters and integral constants in physics and gas dynamics. • The characteristics of gas flow ensuing shock fronts and nonlinear optics have been analysed. • The 3D and contour plots of the obtained solutions are depicted to illustrate profile of the phenomena. Stable soliton solutions for the nonlinear Klein–Gordon equation in condensed matter physics, particle physics, nonlinear optics, solid state physics and the gas dynamics equation ensuing in shock fronts have been established by putting use of the sine-Gordon expansion procedure. We establish the broad-ranging familiar stable wave solutions related with some free parameters, for particular values of which some of the subsisting solutions in the literature are re-established and several fresh solutions are formulated. The contour and 3D shapes are depicted to describe the physical phenomena of the established solutions. Scores of solitary wave solutions are obtained such as, compacton, smooth soliton, anti-bell type solitary wave, bell-type solitary wave, kink and some other new types of solitary wave solutions. The obtained results might play important role in optics, quantum mechanics, mathematical physics and engineering. It is noticeable to inspect that the sine-Gordon expansion procedure is an efficient, competent and straightforward mathematical tool to ascertain exact solitary wave solutions. [ABSTRACT FROM AUTHOR]

Published

2021