Highly Dispersive Optical Solitons with Differential Group Delay for Kerr Law of Self-Phase Modulation by Sardar Sub-Equation Approach

Anwar Ja' afar Mohamad  Jawad; Yakup  Yildirim; Anjan Biswas; Ibraheem Kasim  Ibraheem; Ali Saleh  Alshomrani

doi:10.37256/cm.5320245185

Highly Dispersive Optical Solitons with Differential Group Delay for Kerr Law of Self-Phase Modulation by Sardar Sub-Equation Approach

Authors

Anwar Ja' afar Mohamad Jawad Department of Computer Technical Engineering, Al-Rafidain University College, Baghdad-10064, Iraq
Yakup Yildirim Department of Computer Engineering, Biruni University, Istanbul-34010, Turkey
Anjan Biswas Department of Mathematics and Physics, Grambling State University, Grambling, LA 71245-2715, USA https://orcid.org/0000-0002-8131-6044
Ibraheem Kasim Ibraheem Department of Electrical Engineering, College of Engineering, University of Baghdad, Baghdad-10001, Iraq
Ali Saleh Alshomrani Mathematical Modeling and Applied Computation Research Group, Center of Modern Mathematical Sciences and their Applications Department of Mathematics, King Abdulaziz University, Jeddah-21589, Saudi Arabia

DOI:

https://doi.org/10.37256/cm.5320245185

Keywords:

concatenation, solitons, dispersion, constraints, Sardar' s sub-equation

Abstract

The paper reports highly dispersive optical soliton solutions that are recovered with differential group delay with Kerr law of self-phase modulation. The Sardar' s sub-equation approach is implemented for this retrieval. A full spectrum of optical solitons has been thus recovered. The parameter constraints are also displayed for the existence of such solitons.

Downloads

Published

2024-09-13

How to Cite

Jawad AJ afar M, Yildirim Y, Biswas A, Ibraheem IK, Alshomrani AS. Highly Dispersive Optical Solitons with Differential Group Delay for Kerr Law of Self-Phase Modulation by Sardar Sub-Equation Approach. Contemp. Math. [Internet]. 2024 Sep. 13 [cited 2024 Nov. 16];5(3):3839-57. Available from: https://ojs.wiserpub.com/index.php/CM/article/view/5185

Download Citation

Issue

Contemporary Mathematics, Volume 5 Issue 3 (2024), 2593-4131

Section

Research Article

License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Highly Dispersive Optical Solitons with Differential Group Delay for Kerr Law of Self-Phase Modulation by Sardar Sub-Equation Approach

Authors

DOI:

Keywords:

Abstract

Downloads

Published

How to Cite

Issue

Section

License

Most read articles by the same author(s)

Similar Articles

Similar Articles

Optical Solitons for the Dispersive Concatenation Model

Implicit Quiescent Optical Solitons for the Dispersive Concatenation Model with Nonlinear Chromatic Dispersion by Lie Symmetry

Dark-Singular Straddled Optical Solitons for the Dispersive Concatenation Model with Power-Law of Self-Phase Modulation by Tanh-Coth Approach

Bifurcation Analysis and Chaotic Behavior of the Concatenation Model with Power-Law Nonlinearity

Pure-Cubic Optical Solitons and Stability Analysis with Kerr Law Nonlinearity

No Sum (NS) Sequence: A Tool for Quantum-Safe Cryptography

Optical Solitons with Dispersive Concatenation Model Having Multiplicative White Noise by the Enhanced Direct Algebraic Method

Painlevé Analysis and Chiral Solitons from Quantum Hall Effect

Optical Bullets and Domain Walls with Cross Spatio-Dispersion and Having Kudryashov’s form of Self-Phase Modulation

Stochastic Perturbation of Optical Solitons for the Concatenation Model with Power-Law of Self-Phase Modulation Having Multiplicative White Noise

Optical Solitons for the Dispersive Concatenation Model with Polarization Mode Dispersion by Sardar's Sub-Equation Approach