Derivation of dispersive solitons with quadrupled power law of nonlinearity using improved modified extended tanh function method

Authors

mina fahimFollow
Hamdy Mohamed Ahmed, Higher Institute of Engineering, El-Shorouk AcademyFollow
Islam Samir soliman, Faculty of Engineering , Ain shams UniversityFollow
Kamal Ahmed Eldeb, Faculty of Science, Fayoum UniversityFollow

Document Type

Article

Publication Date

6-22-2024

Abstract

In this work, The proposed model by Kudryashov with quadruple law of nonlinearity and fourth order dispersion is studied. This model describes the propagation of a highly disperse solitons in optical fibers, which will be with a huge privilege in using in communication systems. Studying is conducted by implementing the improved modified extended tanh-function method. Various and new solutions are derived. These solutions including (dark, bright, and singular) soliton, singular periodic, rational, and exponential solutions. These solutions are important in applied physics and engineering. Furthermore, graphical simulations for some solutions are depicted to demonstrate the powerful of these solutions. This influential, consistent, and effective method can be used to solve a variety of other models in physics and other applied sciences.

Recommended Citation

fahim, mina; Ahmed, Hamdy Mohamed; soliman, Islam Samir; and Eldeb, Kamal Ahmed, "Derivation of dispersive solitons with quadrupled power law of nonlinearity using improved modified extended tanh function method" (2024). Basic Science Engineering. 150.
https://buescholar.bue.edu.eg/basic_sci_eng/150