The noise sense effects on the characteristic nonlinearly Schrödinger equation solitary propagations

Hesham G. Abdelwahed; Emad K. El-Shewy; Mahmoud A.E. Abdelrahman; Salim S. Alghanim

doi:10.1177/14613484221122114

The noise sense effects on the characteristic nonlinearly Schrödinger equation solitary propagations

Hesham G. Abdelwahed, Emad K. El-Shewy, Mahmoud A.E. Abdelrahman, Salim S. Alghanim

Physics

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

1 Scopus citations

Abstract

The nonlinearly stochastic Schrödinger equation (NLSSE) predicts the nonlinear process that produces the waves decay in many physics applications. The unified method has been used in obtaining different new stochastic forms for NLSSE damped by noises in Itô sense. The derived structures appear in the form of rational, solitons, soliton-like shocks, and explosive propagations. The new stochastic solutions investigated the change of frequencies by noise term in NLSSE in nonlinear process that may be produced in many nonlinear wave applications. Finally, wave picture properties may controlled by noise term in Itô sense effect, which gives new information’s for NLSSE in physics applications which is believed to be affected by the influence of Brownian motion that change the shape and structures of the generated decaying and damping waves.

Original language	English
Pages (from-to)	818-825
Number of pages	8
Journal	Journal of Low Frequency Noise Vibration and Active Control
Volume	42
Issue number	2
DOIs	https://doi.org/10.1177/14613484221122114
State	Published - Jun 2023

Keywords

Itô sense
damping solutions
stochastic process
symbolic computations
unified solver

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10.1177/14613484221122114

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title = "The noise sense effects on the characteristic nonlinearly Schr{\"o}dinger equation solitary propagations",

abstract = "The nonlinearly stochastic Schr{\"o}dinger equation (NLSSE) predicts the nonlinear process that produces the waves decay in many physics applications. The unified method has been used in obtaining different new stochastic forms for NLSSE damped by noises in It{\^o} sense. The derived structures appear in the form of rational, solitons, soliton-like shocks, and explosive propagations. The new stochastic solutions investigated the change of frequencies by noise term in NLSSE in nonlinear process that may be produced in many nonlinear wave applications. Finally, wave picture properties may controlled by noise term in It{\^o} sense effect, which gives new information{\textquoteright}s for NLSSE in physics applications which is believed to be affected by the influence of Brownian motion that change the shape and structures of the generated decaying and damping waves.",

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AU - Alghanim, Salim S.

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AB - The nonlinearly stochastic Schrödinger equation (NLSSE) predicts the nonlinear process that produces the waves decay in many physics applications. The unified method has been used in obtaining different new stochastic forms for NLSSE damped by noises in Itô sense. The derived structures appear in the form of rational, solitons, soliton-like shocks, and explosive propagations. The new stochastic solutions investigated the change of frequencies by noise term in NLSSE in nonlinear process that may be produced in many nonlinear wave applications. Finally, wave picture properties may controlled by noise term in Itô sense effect, which gives new information’s for NLSSE in physics applications which is believed to be affected by the influence of Brownian motion that change the shape and structures of the generated decaying and damping waves.

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The noise sense effects on the characteristic nonlinearly Schrödinger equation solitary propagations

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