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

Q2 Physics and Astronomy Physics Open Pub Date : 2024-08-05 DOI:10.1016/j.physo.2024.100232

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

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Abstract

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.

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提取具有标准布朗运动、非线性五倍幂律和非线性色散的广义随机 NLSE 的新孤子波结构

随机光学孤子是非线性光学中的一种奇妙现象，在受随机噪声影响的系统中会出现类似孤子的行为。本研究探讨了布朗运动对光纤中波传播的影响。传播模型采用随机非线性薛定谔方程，其中包含五倍幂律非线性和非线性色度色散。为了探讨这个问题，采用了改进的修正扩展 tanh（IMET）方案，利用扩展里卡提方程。这项技术有助于提取各种随机解，包括亮孤子、暗孤子和奇异孤子。此外，还研究了指数、奇异周期和韦尔斯特拉斯椭圆形式的解。该研究探讨了噪声强度对各种解的影响，并使用 Matlab 软件创建了显示结果的二维和三维图形。研究发现，当噪声强度增加时，信号水平下降，曲面变平。

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