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Highly Dispersive Optical Soliton Perturbation, with Maximum Intensity, for the Complex Ginzburg–Landau Equation by Semi-Inverse Variation

Anjan Biswas, Trevor Berkemeyer, Salam Khan, Luminița Moraru, Yakup Yıldırım, Hashim M. Alshehri

2022Mathematics12 citationsDOIOpen Access PDF

Abstract

This work analytically recovers the highly dispersive bright 1–soliton solution using for the perturbed complex Ginzburg–Landau equation, which is studied with three forms of nonlinear refractive index structures. They are Kerr law, parabolic law, and polynomial law. The perturbation terms appear with maximum allowable intensity, also known as full nonlinearity. The semi-inverse variational principle makes this retrieval possible. The amplitude–width relation is obtained by solving a cubic polynomial equation using Cardano’s approach. The parameter constraints for the existence of such solitons are also enumerated.

Topics & Concepts

SolitonInverseRefractive indexMathematicsPerturbation (astronomy)Nonlinear systemMathematical analysisAmplitudeMathematical physicsPhysicsQuantum mechanicsGeometryNonlinear Waves and SolitonsAdvanced Fiber Laser TechnologiesNonlinear Photonic Systems
Highly Dispersive Optical Soliton Perturbation, with Maximum Intensity, for the Complex Ginzburg–Landau Equation by Semi-Inverse Variation | Litcius