Crank-Nnicolson scheme for solving the modified nonlinear Schrodinger equation

Purpose: The purpose of this paper is to obtain the nonlinear Schrodinger equation (NLSE) numerical solutions in the presence of the first-order chromatic dispersion using a second-order, unconditionally stable, implicit finite difference method. In addition, stability and accuracy are proved for th...

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Main Authors: Alanazi, A. A., Alamri, Sultan Z., Shafie, S., Mohd. Puzi, Shazirawati
Format: Article
Published: Emerald Group Holdings Ltd. 2021
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Online Access:http://eprints.utm.my/id/eprint/95827/
http://dx.doi.org/10.1108/HFF-10-2020-0677
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spelling my.utm.958272022-06-19T03:15:48Z http://eprints.utm.my/id/eprint/95827/ Crank-Nnicolson scheme for solving the modified nonlinear Schrodinger equation Alanazi, A. A. Alamri, Sultan Z. Shafie, S. Mohd. Puzi, Shazirawati QA Mathematics Purpose: The purpose of this paper is to obtain the nonlinear Schrodinger equation (NLSE) numerical solutions in the presence of the first-order chromatic dispersion using a second-order, unconditionally stable, implicit finite difference method. In addition, stability and accuracy are proved for the resulting scheme. Design/methodology/approach: The conserved quantities such as mass, momentum and energy are calculated for the system governed by the NLSE. Moreover, the robustness of the scheme is confirmed by conducting various numerical tests using the Crank-Nicolson method on different cases of solitons to discuss the effects of the factor considered on solitons properties and on conserved quantities. Findings: The Crank-Nicolson scheme has been derived to solve the NLSE for optical fibers in the presence of the wave packet drift effects. It has been founded that the numerical scheme is second-order in time and space and unconditionally stable by using von-Neumann stability analysis. The effect of the parameters considered in the study is displayed in the case of one, two and three solitons. It was noted that the reliance of NLSE numeric solutions properties on coefficients of wave packets drift, dispersions and Kerr nonlinearity play an important control not only the stable and unstable regime but also the energy, momentum conservation laws. Accordingly, by comparing our numerical results in this study with the previous work, it was recognized that the obtained results are the generalized formularization of these work. Also, it was distinguished that our new data are regarding to the new communications modes that depend on the dispersion, wave packets drift and nonlinearity coefficients. Originality/value: The present study uses the first-order chromatic. Also, it highlights the relationship between the parameters of dispersion, nonlinearity and optical wave properties. The study further reports the effect of wave packet drift, dispersions and Kerr nonlinearity play an important control not only the stable and unstable regime but also the energy, momentum conservation laws. Emerald Group Holdings Ltd. 2021-08-10 Article PeerReviewed Alanazi, A. A. and Alamri, Sultan Z. and Shafie, S. and Mohd. Puzi, Shazirawati (2021) Crank-Nnicolson scheme for solving the modified nonlinear Schrodinger equation. International Journal of Numerical Methods for Heat and Fluid Flow, 31 (8). pp. 2789-2817. ISSN 0961-5539 http://dx.doi.org/10.1108/HFF-10-2020-0677 DOI:10.1108/HFF-10-2020-0677
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic QA Mathematics
spellingShingle QA Mathematics
Alanazi, A. A.
Alamri, Sultan Z.
Shafie, S.
Mohd. Puzi, Shazirawati
Crank-Nnicolson scheme for solving the modified nonlinear Schrodinger equation
description Purpose: The purpose of this paper is to obtain the nonlinear Schrodinger equation (NLSE) numerical solutions in the presence of the first-order chromatic dispersion using a second-order, unconditionally stable, implicit finite difference method. In addition, stability and accuracy are proved for the resulting scheme. Design/methodology/approach: The conserved quantities such as mass, momentum and energy are calculated for the system governed by the NLSE. Moreover, the robustness of the scheme is confirmed by conducting various numerical tests using the Crank-Nicolson method on different cases of solitons to discuss the effects of the factor considered on solitons properties and on conserved quantities. Findings: The Crank-Nicolson scheme has been derived to solve the NLSE for optical fibers in the presence of the wave packet drift effects. It has been founded that the numerical scheme is second-order in time and space and unconditionally stable by using von-Neumann stability analysis. The effect of the parameters considered in the study is displayed in the case of one, two and three solitons. It was noted that the reliance of NLSE numeric solutions properties on coefficients of wave packets drift, dispersions and Kerr nonlinearity play an important control not only the stable and unstable regime but also the energy, momentum conservation laws. Accordingly, by comparing our numerical results in this study with the previous work, it was recognized that the obtained results are the generalized formularization of these work. Also, it was distinguished that our new data are regarding to the new communications modes that depend on the dispersion, wave packets drift and nonlinearity coefficients. Originality/value: The present study uses the first-order chromatic. Also, it highlights the relationship between the parameters of dispersion, nonlinearity and optical wave properties. The study further reports the effect of wave packet drift, dispersions and Kerr nonlinearity play an important control not only the stable and unstable regime but also the energy, momentum conservation laws.
format Article
author Alanazi, A. A.
Alamri, Sultan Z.
Shafie, S.
Mohd. Puzi, Shazirawati
author_facet Alanazi, A. A.
Alamri, Sultan Z.
Shafie, S.
Mohd. Puzi, Shazirawati
author_sort Alanazi, A. A.
title Crank-Nnicolson scheme for solving the modified nonlinear Schrodinger equation
title_short Crank-Nnicolson scheme for solving the modified nonlinear Schrodinger equation
title_full Crank-Nnicolson scheme for solving the modified nonlinear Schrodinger equation
title_fullStr Crank-Nnicolson scheme for solving the modified nonlinear Schrodinger equation
title_full_unstemmed Crank-Nnicolson scheme for solving the modified nonlinear Schrodinger equation
title_sort crank-nnicolson scheme for solving the modified nonlinear schrodinger equation
publisher Emerald Group Holdings Ltd.
publishDate 2021
url http://eprints.utm.my/id/eprint/95827/
http://dx.doi.org/10.1108/HFF-10-2020-0677
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score 13.211869