Optical Solitons with Dispersive Concatenation Model Having Multiplicative White Noise by F-Expansion Approach

Yakup Yildirim; Anjan Biswas

doi:10.37256/cm.6520256955

Optical Solitons with Dispersive Concatenation Model Having Multiplicative White Noise by F-Expansion Approach

Yakup Yildirim, Anjan Biswas

Research output: Contribution to journal › Article › peer-review

Abstract

The present paper offers a systematic study of the dispersive concatenation model, with special emphasis on the Kerr law nonlinearity that governs the optical interactions of photons in optical fibers. The model is studied in the environment of multiplicative white noise via the use of Itô Calculus, a stochastic method that significantly impacts the system’s dynamics. To deal with the resulting complexities generated both in the form of the noise and the nonlinear dispersion, the F-expansion method is used to find the solutions of the governing equations. The strong mathematical background enables the successful identification of a wide range of optical soliton solutions, while special emphasis is given to their stability and their conditions of propagation in such environments.

Original language	English
Pages (from-to)	5443-5465
Number of pages	23
Journal	Contemporary Mathematics (Singapore)
Volume	6
Issue number	5
DOIs	https://doi.org/10.37256/cm.6520256955
Publication status	Published - 2025
Externally published	Yes

Keywords

F-expansion
concatenation
dispersion
solitons
white noise

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10.37256/cm.6520256955

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title = "Optical Solitons with Dispersive Concatenation Model Having Multiplicative White Noise by F-Expansion Approach",

abstract = "The present paper offers a systematic study of the dispersive concatenation model, with special emphasis on the Kerr law nonlinearity that governs the optical interactions of photons in optical fibers. The model is studied in the environment of multiplicative white noise via the use of It{\^o} Calculus, a stochastic method that significantly impacts the system{\textquoteright}s dynamics. To deal with the resulting complexities generated both in the form of the noise and the nonlinear dispersion, the F-expansion method is used to find the solutions of the governing equations. The strong mathematical background enables the successful identification of a wide range of optical soliton solutions, while special emphasis is given to their stability and their conditions of propagation in such environments.",

keywords = "F-expansion, concatenation, dispersion, solitons, white noise",

author = "Yakup Yildirim and Anjan Biswas",

note = "Publisher Copyright: {\textcopyright}2025 Yakup Yildirim, et al.",

year = "2025",

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language = "English",

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T1 - Optical Solitons with Dispersive Concatenation Model Having Multiplicative White Noise by F-Expansion Approach

AU - Yildirim, Yakup

AU - Biswas, Anjan

PY - 2025

Y1 - 2025

N2 - The present paper offers a systematic study of the dispersive concatenation model, with special emphasis on the Kerr law nonlinearity that governs the optical interactions of photons in optical fibers. The model is studied in the environment of multiplicative white noise via the use of Itô Calculus, a stochastic method that significantly impacts the system’s dynamics. To deal with the resulting complexities generated both in the form of the noise and the nonlinear dispersion, the F-expansion method is used to find the solutions of the governing equations. The strong mathematical background enables the successful identification of a wide range of optical soliton solutions, while special emphasis is given to their stability and their conditions of propagation in such environments.

AB - The present paper offers a systematic study of the dispersive concatenation model, with special emphasis on the Kerr law nonlinearity that governs the optical interactions of photons in optical fibers. The model is studied in the environment of multiplicative white noise via the use of Itô Calculus, a stochastic method that significantly impacts the system’s dynamics. To deal with the resulting complexities generated both in the form of the noise and the nonlinear dispersion, the F-expansion method is used to find the solutions of the governing equations. The strong mathematical background enables the successful identification of a wide range of optical soliton solutions, while special emphasis is given to their stability and their conditions of propagation in such environments.

KW - F-expansion

KW - concatenation

KW - dispersion

KW - solitons

KW - white noise

UR - https://www.scopus.com/pages/publications/105014885271

U2 - 10.37256/cm.6520256955

DO - 10.37256/cm.6520256955

M3 - Article

AN - SCOPUS:105014885271

SN - 2705-1064

VL - 6

SP - 5443

EP - 5465

JO - Contemporary Mathematics (Singapore)

JF - Contemporary Mathematics (Singapore)

IS - 5

ER -

Optical Solitons with Dispersive Concatenation Model Having Multiplicative White Noise by F-Expansion Approach

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Keywords

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