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New optical soliton solutions and dynamical wave formations for a fractionally perturbed Chen-Lee-Liu (CLL) equation with a novel local fractional (NLF) derivative

Loubna Ouahid, Meznah M. Alanazi, Jameelah S. Al Shahrani, Mohamed Abdou, Sachin Kumar

2023Modern Physics Letters B16 citationsDOI

Abstract

In this work, we use a novel fractional-order derivative for the fractionally perturbed Chen–Lee–Liu nonlinear equation. The new extended hyperbolic function (EHF) method is applied for obtaining new optical soliton solutions of the mentioned equation. Three-dimensional graphics and projection 3D plots are used for showing the dynamic wave formations of the soliton solutions. Then, we contrast our findings with the earlier existing results for the nonlinearly perturbed CCL. The generated solutions show that the extended hyperbolic function (EHF) method for finding soliton solutions to highly nonlinear equations is productive, suitable, and competent in optical fibers, fractional calculus, and nonlinear sciences.

Topics & Concepts

SolitonNonlinear systemHyperbolic functionProjection (relational algebra)ChenOne-dimensional spaceFractional calculusPhysicsDerivative (finance)Mathematical analysisFunction (biology)Mathematical physicsApplied mathematicsMathematicsQuantum mechanicsEconomicsFinancial economicsEvolutionary biologyAlgorithmPaleontologyBiologyFractional Differential Equations SolutionsNonlinear Waves and SolitonsDifferential Equations and Numerical Methods
New optical soliton solutions and dynamical wave formations for a fractionally perturbed Chen-Lee-Liu (CLL) equation with a novel local fractional (NLF) derivative | Litcius