Higher-order Kerr nonlinear and dispersion effects on fiber optics

H. G. Abdelwahed; Mahmoud A.E. Abdelrahman; S. Alghanim; N. F. Abdo

doi:10.1016/j.rinp.2021.104268

Higher-order Kerr nonlinear and dispersion effects on fiber optics

H. G. Abdelwahed, Mahmoud A.E. Abdelrahman, S. Alghanim, N. F. Abdo

Physics

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

28 Scopus citations

Abstract

In new communication optical fiber enforcements, the nonlinear Schrödinger equations (NLSEs) have honorable description for soliton transmission characteristics. The NLSEs coefficients such as nonlinear, evolution and dispersion controlled the soliton picture during the fiber transmissions. Sometimes, the dispersive and dissipative fiber materials properties cause the deviations in soliton width-amplitude that obtained from NLSEs. To reduce these effects higher-order nonlinear Schr ödinger equations (HONLSEs) should be investigated. In this work, the unified solver technique is applied in order to solve the HONLSE. The effects of steepness, HO disperion-nonlinear self-frequency have been considered. The higher order effects modified the solitary characteristics in communicating fibers. This investigation is important in new communications soliton handling.

Original language	English
Article number	104268
Journal	Results in Physics
Volume	26
DOIs	https://doi.org/10.1016/j.rinp.2021.104268
State	Published - Jul 2021

Keywords

Frequency change
HONLSE
Optical blow up solitons
Periodical explosive waves

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10.1016/j.rinp.2021.104268

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title = "Higher-order Kerr nonlinear and dispersion effects on fiber optics",

abstract = "In new communication optical fiber enforcements, the nonlinear Schr{\"o}dinger equations (NLSEs) have honorable description for soliton transmission characteristics. The NLSEs coefficients such as nonlinear, evolution and dispersion controlled the soliton picture during the fiber transmissions. Sometimes, the dispersive and dissipative fiber materials properties cause the deviations in soliton width-amplitude that obtained from NLSEs. To reduce these effects higher-order nonlinear Schr {\"o}dinger equations (HONLSEs) should be investigated. In this work, the unified solver technique is applied in order to solve the HONLSE. The effects of steepness, HO disperion-nonlinear self-frequency have been considered. The higher order effects modified the solitary characteristics in communicating fibers. This investigation is important in new communications soliton handling.",

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T1 - Higher-order Kerr nonlinear and dispersion effects on fiber optics

AU - Abdelwahed, H. G.

AU - Abdelrahman, Mahmoud A.E.

AU - Alghanim, S.

AU - Abdo, N. F.

PY - 2021/7

Y1 - 2021/7

N2 - In new communication optical fiber enforcements, the nonlinear Schrödinger equations (NLSEs) have honorable description for soliton transmission characteristics. The NLSEs coefficients such as nonlinear, evolution and dispersion controlled the soliton picture during the fiber transmissions. Sometimes, the dispersive and dissipative fiber materials properties cause the deviations in soliton width-amplitude that obtained from NLSEs. To reduce these effects higher-order nonlinear Schr ödinger equations (HONLSEs) should be investigated. In this work, the unified solver technique is applied in order to solve the HONLSE. The effects of steepness, HO disperion-nonlinear self-frequency have been considered. The higher order effects modified the solitary characteristics in communicating fibers. This investigation is important in new communications soliton handling.

AB - In new communication optical fiber enforcements, the nonlinear Schrödinger equations (NLSEs) have honorable description for soliton transmission characteristics. The NLSEs coefficients such as nonlinear, evolution and dispersion controlled the soliton picture during the fiber transmissions. Sometimes, the dispersive and dissipative fiber materials properties cause the deviations in soliton width-amplitude that obtained from NLSEs. To reduce these effects higher-order nonlinear Schr ödinger equations (HONLSEs) should be investigated. In this work, the unified solver technique is applied in order to solve the HONLSE. The effects of steepness, HO disperion-nonlinear self-frequency have been considered. The higher order effects modified the solitary characteristics in communicating fibers. This investigation is important in new communications soliton handling.

KW - Frequency change

KW - HONLSE

KW - Optical blow up solitons

KW - Periodical explosive waves

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JO - Results in Physics

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Higher-order Kerr nonlinear and dispersion effects on fiber optics

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Keywords

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