Extraction of newly soliton wave structure of generalized stochastic NLSE with standard Brownian motion, quintuple power law of nonlinearity and nonlinear chromatic dispersion

Islam Samir; Karim K. Ahmed; Hamdy M. Ahmed; Homan Emadifar; Wafaa B. Rabie

Physics Open (Dec 2024)

Extraction of newly soliton wave structure of generalized stochastic NLSE with standard Brownian motion, quintuple power law of nonlinearity and nonlinear chromatic dispersion

Islam Samir,
Karim K. Ahmed,
Hamdy M. Ahmed,
Homan Emadifar,
Wafaa B. Rabie

Affiliations

Islam Samir: Department of Physics and Mathematics Engineering, Faculty of Engineering, Ain Shams University, Cairo, Egypt
Karim K. Ahmed: Department of Mathematics, Faculty of Basic Sciences, The German University in Cairo (GUC), Cairo, Egypt
Hamdy M. Ahmed: Department of Physics and Engineering Mathematics, Higher Institute of Engineering, El-Shorouk Academy, El-Shorouk City, Cairo, Egypt
Homan Emadifar: Department of Mathematics, Saveetha School of Engineering, Saveetha Institute of Medical and Technical Sciences, Saveetha University, Chennai 602 105, Tamil Nadu, India; MEU Research Unit, Middle East University, Amman, Jordan; Department of Mathematics, Hamedan Branch, Islamic Azad University of Hamedan, Hamadan, Iran; Corresponding author at: Department of Mathematics, Hamedan Branch, Islamic Azad University of Hamedan, Hamadan, Iran.
Wafaa B. Rabie: Department of Engineering Mathematics and Physics, Higher Institute of Engineering and Technology, Tanta, Egypt

Journal volume & issue: Vol. 21
p. 100232

Abstract

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Stochastic optical solitons are a fascinating phenomenon in nonlinear optics where soliton-like behavior emerges in systems affected by stochastic noise. This study investigates the influence of Brownian motion on wave propagation in optical fibers. The propagation is modeled using a stochastic nonlinear Schrödinger equation incorporating quintuple power-law nonlinearity and nonlinear chromatic dispersion. To explore this, the improved modified extended tanh (IMET) scheme, leveraging the extended Riccati equation, is employed. This technique facilitates the extraction of various stochastic solutions, including bright, dark, and singular solitons. Furthermore, solutions in the shapes of exponential, singular periodic, and Weierstrass elliptic forms are investigated. The study looks at how the strength of noise impacts various solutions, and Matlab software is used to create 2D and 3D graphs that show the results. It has been noted that when noise intensity rises, signal level falls and surface flattens.

Published in Physics Open

ISSN: 2666-0326 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Science: Physics
Website: https://www.journals.elsevier.com/physics-open

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