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Optical and Quantum Electronics
Erschienen in: Optical and Quantum Electronics 5/2023

01.05.2023

New optical soliton solutions and a variety of dynamical wave profiles to the perturbed Chen–Lee–Liu equation in optical fibers

verfasst von: Sachin Kumar, Monika Niwas

Erschienen in: Optical and Quantum Electronics | Ausgabe 5/2023

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Abstract

In this work, we studied the perturbed Chen–Lee–Liu (CLL) equation by taking advantage of a very reliable and efficient approach, namely, the generalized Riccati equation mapping method for describing propagation pulses in optical fiber. To find the soliton solutions to the perturbed CLL equation, we first apply the traveling wave transformation to reduce the considered Schrödinger equation to a system of an ordinary differential equation in the context of the real and imaginary parts of the perturbed CLL equation. Thereafter, after taking some conditions on the involved parameters, we obtained the optical soliton solutions for the governing equation. To understand the behavior of attained solutions, we discussed the real, imaginary, and absolute parts of solutions with 2-dimensional and 3-dimensional plots. The dynamical behavior of the obtained solutions demonstrates that they are solitary wave solitons, mixed periodic solitons, anti-bell shape solitons, solitary wave with lump solitons, singular type solitons, periodic wave solitons, and so on.
Vorheriger Artikel Minimum quantum noise and photon number statistics of a multimode radiation field in interaction with two 2-level atoms
Nächster Artikel Numerical analysis of all optical 1-bit comparator based on PhC structure for optical integrated circuits

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Metadaten
Titel
New optical soliton solutions and a variety of dynamical wave profiles to the perturbed Chen–Lee–Liu equation in optical fibers
verfasst von
Sachin Kumar
Monika Niwas
Publikationsdatum
01.05.2023
Verlag
Springer US
Erschienen in
Optical and Quantum Electronics / Ausgabe 5/2023
Print ISSN: 0306-8919
Elektronische ISSN: 1572-817X
DOI
https://doi.org/10.1007/s11082-023-04647-6

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