The nonlinear vibration and dispersive wave systems with extended homoclinic breather wave solutions

• Published in: Open Physics Vol. 20; no. 1; pp. 795 - 821
• Main Authors: Rao, Xianqing, Manafian, Jalil, Mahmoud, K. H., Hajar, Afandiyeva, Mahdi, Ahmed B., Zaidi, Muhaned
• Format: Journal Article
• Language: English
• Published: De Gruyter 16.08.2022
• Subjects: extended homoclinic breather; Hirota bilinear operator technique; nonlinear vibration and dispersive wave systems; periodic wave
• ISSN: 2391-5471; 2391-5471
• DOI: 10.1515/phys-2022-0073

This article investigates the extended homoclinic (heteroclinic) breather wave solutions and interaction periodic and dark soliton solutions to the nonlinear vibration and dispersive wave systems. The solutions include periodic, breather, and soliton solutions. The bilinear form is considered in terms of Hirota derivatives. Accordingly, we utilize the Cole–Hopf algorithm to obtain the exact solutions of the ( )-dimensional modified dispersive water-wave system. The analytical treatment of extended homoclinic breather wave solutions and interaction periodic and dark soliton solutions are studied and plotted in four forms of density plots. A nonlinear vibration system will be studied. Employing appropriate mathematical assumptions, the novel kinds of the extended homoclinic breather wave solutions and interaction periodic and dark soliton solutions are derived and constructed in view of the combination of kink, periodic, and soliton for an extended homoclinic breather and also a combination of two kinks, periodic and dark soliton in terms of exponential, trigonometric, hyperbolic functions for interaction periodic and dark soliton of the governing equation. To achieve this, the illustrative example of the ( )-D modified dispersive water-wave system is furnished to demonstrate the feasibility and reliability of the procedure applied in this research. The trajectory solutions of the traveling waves are offered explicitly and graphically. The effect of the free parameters on the behavior of designed figures of a few obtained solutions for two nonlinear rational exact cases was also considered. By comparing the suggested scheme with the other existing methods, the results state that the execution of this technique is succinct, extensive, and straightforward.