Monochromatic optical beam propagation of paraxial dynamical model in Kerr media

In this study, the monochromatic beam propagation interprets non-scattering and non-dissipation spatiotemporally localized wave parcels proliferated in the announcement of optical Kerr. By using the mathematical techniques some elliptic, rational, and soliton solutions of dimension-less (time-depend...

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Published inResults in physics Vol. 31; p. 105015
Main Authors Rehman, Hamood Ur, Seadawy, Aly R., Younis, M., Yasin, S., Raza, Syed T.R., Althobaiti, Saad
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.12.2021
Elsevier
Subjects
NLEs
Paraxial wave model
Sardar-subequation method
Solitary wave and periodic solutions
Paraxial wave model
NLEs
Sardar-subequation method
Solitary wave and periodic solutions
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Abstract In this study, the monochromatic beam propagation interprets non-scattering and non-dissipation spatiotemporally localized wave parcels proliferated in the announcement of optical Kerr. By using the mathematical techniques some elliptic, rational, and soliton solutions of dimension-less (time-dependent) paraxial wave structure are established. The Sardar subequation method (SSM) and mathematica 11.0 are used to find the exact solution of the paraxial wave equation. The solutions which we will be obtained explain some key implementations in engineering and physics. Some graphical representation has been explained in modulus, real and imaginary graph by considering relevant values of the framework. The solidity of this work explains that the soliton solutions are secure and perfect. •The Monochromatic Optical Beam solutions are obtained.•Weakly dispersive prorogation of waves structures.•Propagation of Paraxial Dynamical Model in Kerr Media.
AbstractList In this study, the monochromatic beam propagation interprets non-scattering and non-dissipation spatiotemporally localized wave parcels proliferated in the announcement of optical Kerr. By using the mathematical techniques some elliptic, rational, and soliton solutions of dimension-less (time-dependent) paraxial wave structure are established. The Sardar subequation method (SSM) and mathematica 11.0 are used to find the exact solution of the paraxial wave equation. The solutions which we will be obtained explain some key implementations in engineering and physics. Some graphical representation has been explained in modulus, real and imaginary graph by considering relevant values of the framework. The solidity of this work explains that the soliton solutions are secure and perfect.
In this study, the monochromatic beam propagation interprets non-scattering and non-dissipation spatiotemporally localized wave parcels proliferated in the announcement of optical Kerr. By using the mathematical techniques some elliptic, rational, and soliton solutions of dimension-less (time-dependent) paraxial wave structure are established. The Sardar subequation method (SSM) and mathematica 11.0 are used to find the exact solution of the paraxial wave equation. The solutions which we will be obtained explain some key implementations in engineering and physics. Some graphical representation has been explained in modulus, real and imaginary graph by considering relevant values of the framework. The solidity of this work explains that the soliton solutions are secure and perfect. •The Monochromatic Optical Beam solutions are obtained.•Weakly dispersive prorogation of waves structures.•Propagation of Paraxial Dynamical Model in Kerr Media.
ArticleNumber 105015
Author Seadawy, Aly R.
Raza, Syed T.R.
Althobaiti, Saad
Yasin, S.
Rehman, Hamood Ur
Younis, M.
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  fullname: Althobaiti, Saad
  organization: Department of Sciences and Technology, Ranyah University Collage, Taif University, P.O. Box 11099, Taif 21944, Saudi Arabia
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Keywords Paraxial wave model
NLEs
Sardar-subequation method
Solitary wave and periodic solutions
Language English
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Snippet In this study, the monochromatic beam propagation interprets non-scattering and non-dissipation spatiotemporally localized wave parcels proliferated in the...
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SubjectTerms NLEs
Paraxial wave model
Sardar-subequation method
Solitary wave and periodic solutions
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Title Monochromatic optical beam propagation of paraxial dynamical model in Kerr media
URI https://dx.doi.org/10.1016/j.rinp.2021.105015
https://doaj.org/article/7028ef8a7b344420aa9fd73e7c5301d8
Volume 31
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