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Optical and Quantum Electronics

Erschienen in:

01.10.2023

New solitary waves, bifurcation and chaotic patterns of Coupled Nonlinear Schrodinger System arising in fibre optics

verfasst von: Nauman Raza, Muhammad Hamza Rafiq, Tahani A. Alrebdi, Abdel-Haleem Abdel-Aty

Erschienen in: Optical and Quantum Electronics | Ausgabe 10/2023

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Abstract

This study focuses on analyzing a coupled space-time fractional nonlinear Schrodinger equation, which has applications in describing non-relativistic quantum mechanical behavior. The investigation covers various aspects, including the examination of dynamical behaviors and the exploration of optical soliton solutions. The modified F-expansion method is employed to derive these soliton solutions. To visualize and interpret the physical characteristics of the solutions, they are plotted in 2D, 3D, and density plots with appropriate parameter settings. The dynamical behaviors of the equation are discussed by investigating bifurcations at equilibrium points, and the chaotic behavior of the perturbed dynamical system is demonstrated using chaos theory. Phase portraits illustrating bifurcation and chaotic patterns are generated using the RK4 algorithm in Matlab. These findings provide a dynamic and powerful mathematical tool to address a range of nonlinear wave phenomena. Key discoveries include the identification of new solitary wave forms, as well as bifurcation and chaotic solutions. These unique and intriguing solutions have theoretical significance in understanding energy transfer and diffusion processes in mathematical models.

Vorheriger Artikel A compact high-performance decoder using the resonant cavities in photonic crystal structure

Nächster Artikel Influence of polar solvents on the growth and characteristic aspects of m-nitroaniline single crystals

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Titel: New solitary waves, bifurcation and chaotic patterns of Coupled Nonlinear Schrodinger System arising in fibre optics
verfasst von: Nauman Raza
Muhammad Hamza Rafiq
Tahani A. Alrebdi
Abdel-Haleem Abdel-Aty
Publikationsdatum: 01.10.2023
Verlag: Springer US
Erschienen in: Optical and Quantum Electronics / Ausgabe 10/2023
Print ISSN: 0306-8919
Elektronische ISSN: 1572-817X
DOI: https://doi.org/10.1007/s11082-023-05097-w

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