Your search keyword '"Generalized bilinear differential equation"' showing total 2 results

1. New lump and interaction soliton, N-soliton solutions and the LSP for the (3 + 1)-D potential-YTSF-like equation

Author

Lei Huang, Jalil Manafian, Gurpreet Singh, Kottakkaran Sooppy Nisar, and Mahyuddin K.M. Nasution

Subjects

Potential-YTSF-like equation, Generalized bilinear differential equation, M-soliton, Lump solutions, Interaction, Linear superposition principle, Physics, QC1-999

Abstract

In this work, we established some exact solutions for the (3 + 1)-dimensional potential-Yu-Toda-Sasa-Fukuyama (YTSF)-like equation with p=3 and p=5 which are considered based on the generalized Hirota bilinear method. Depending on the analysis of Hirota operator, a generalized bilinear differential equation of the YTSF-like equation type is formulated. Furthermore, through a specific computations with Maple software, M-soliton solutions, lump solution and three classes of interaction solutions of the YTSF-like equation expressed explicitly. Moreover, we employ the linear superposition principle (LSP) to determine N-soliton wave solutions of the (3 + 1)-dimensional YTSF-like equation. The studied equation describes the physical characterization of model for investigating the dynamics of solitons and nonlinear waves in fluid dynamics, plasma physics and weakly dispersive media. Moreover, a few key differences are presented, which exits in the literature and the current offer. The evaluated solutions are explained through various sketches in two, three-dimensional, density, and curve plots of their real, imaginary, and absolute value. The computational applied schemes’ performance is tested to illustrate their powerful, and effectiveness for handling many nonlinear evolutions equations.

Published

2021

2. New lump and interaction soliton, N-soliton solutions and the LSP for the (3 + 1)-D potential-YTSF-like equation.

Author

Huang, Lei, Manafian, Jalil, Singh, Gurpreet, Nisar, Kottakkaran Sooppy, and Nasution, Mahyuddin K.M.

Abstract

• We establish some exact solutions for the (3 + 1) -D YTSF-like equation with p = 3 and p = 5 which are considered based on the generalized Hirota bilinear method. • Through a specific computations with Maple software, M-soliton solutions, lump solution and three classes of interaction solutions of the YTSF-like equation expressed explicitly. • We employ the linear superposition principle to determine N-soliton wave solutions of the YTSF-like equation. • The evaluated solutions are explained through various sketches in two, three-dimensional, density, and curve plots. In this work, we established some exact solutions for the (3 + 1)-dimensional potential-Yu-Toda-Sasa-Fukuyama (YTSF)-like equation with p = 3 and p = 5 which are considered based on the generalized Hirota bilinear method. Depending on the analysis of Hirota operator, a generalized bilinear differential equation of the YTSF-like equation type is formulated. Furthermore, through a specific computations with Maple software, M-soliton solutions, lump solution and three classes of interaction solutions of the YTSF-like equation expressed explicitly. Moreover, we employ the linear superposition principle (LSP) to determine N -soliton wave solutions of the (3 + 1)-dimensional YTSF-like equation. The studied equation describes the physical characterization of model for investigating the dynamics of solitons and nonlinear waves in fluid dynamics, plasma physics and weakly dispersive media. Moreover, a few key differences are presented, which exits in the literature and the current offer. The evaluated solutions are explained through various sketches in two, three-dimensional, density, and curve plots of their real, imaginary, and absolute value. The computational applied schemes' performance is tested to illustrate their powerful, and effectiveness for handling many nonlinear evolutions equations. [ABSTRACT FROM AUTHOR]

Published

2021