Results 151 to 160 of about 2,916,435 (211)
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Physics Letters, 2021
We investigate diverse optical solitons and other solution for the Coupled Nonlinear Schrodinger Equation (CNLSE) having Four-Wave Mixing (FWM) and Kerr nonlinearity term. We stress the effects of different parameters of the model on the obtained optical
S. Abbagari +5 more
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We investigate diverse optical solitons and other solution for the Coupled Nonlinear Schrodinger Equation (CNLSE) having Four-Wave Mixing (FWM) and Kerr nonlinearity term. We stress the effects of different parameters of the model on the obtained optical
S. Abbagari +5 more
semanticscholar +1 more source
Dissipative solitons for real world optical solitons
2007 Asia Optical Fiber Communication and Optoelectronics Conference, 2007Efficient use of nonlinear dissipation enables the formation of robust optical pulses, with unique soliton properties. This way, exceptional stability of mode-locked lasers, formation of "soliton molecules", and optical regeneration schemes can be better understood.
Grelu, Philippe +3 more
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Dynamical behaviors of various optical soliton solutions for the Fokas–Lenells equation
Modern physics letters B, 2021In this work, the new optical soliton solutions and interaction solutions for the space-time fractional Fokas–Lenells equation with fractional [Formula: see text]-derivatives are constructed via three mathematical analytical techniques, namely the ...
A. Hendi +4 more
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Optical solitons: Perspectives and applications
Chaos: An Interdisciplinary Journal of Nonlinear Science, 2000This article serves as an introduction to the focus issue on optical solitons. After a short review of the history of solitons and the field of integrable systems, a brief overview of the development of nonlinear optics and optical solitons is provided.
Ablowitz, Mark J. +2 more
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Perturbations of optical solitons
Physical Review A, 1993A perturbation theory is developed to investigate the effects of various perturbations on soliton propagation down an optical fiber. The theory is formulated within the «natural» framework of inverse scattering theory. The perturbative effects of third-order dispersion, the soliton self-frequency shift, bandwidth-limited gain, periodic modulation, and ...
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Physica Scripta, 2020
Nonclassical quantum mechanics along with dispersive interactions of free particles, long-range boson stars, hydrodynamics, harmonic oscillator, shallow-water waves, and quantum condensates can be modeled via the nonlinear fractional Schrödinger equation.
M. Alabedalhadi +4 more
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Nonclassical quantum mechanics along with dispersive interactions of free particles, long-range boson stars, hydrodynamics, harmonic oscillator, shallow-water waves, and quantum condensates can be modeled via the nonlinear fractional Schrödinger equation.
M. Alabedalhadi +4 more
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1989
In the preceding chapter it was shown that, under ideal conditions, a light wave in a dielectric material would form an envelope soliton. However, in a real three-dimensional fiber, the light wave propagates with finite loss. In this chapter, we discuss the practical conditions needed for an optical pulse to become a soliton in a dielectric waveguide.
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In the preceding chapter it was shown that, under ideal conditions, a light wave in a dielectric material would form an envelope soliton. However, in a real three-dimensional fiber, the light wave propagates with finite loss. In this chapter, we discuss the practical conditions needed for an optical pulse to become a soliton in a dielectric waveguide.
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Control of Optical Soliton Interactions
Optical Fiber Technology, 1995Abstract We review the theory of optical (temporal and spatial) solitons in nonlinear optical fibers and waveguides and we apply the results to analyze the process of soliton interaction. We show that several approaches with different degrees of complexity may be employed in order to describe the multiple soliton dynamics.
Y. KODAMA, A. B. ACEVES, WABNITZ, Stefan
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Mathematical methods in the applied sciences, 2020
In this paper, we employ three integration algorithms, namely, the well‐known Kudryashov method, the new Kudryashov method, and the unified Riccati equation expansion method to extract optical soliton solutions for the generalized Kudryashov equation ...
E. Zayed, M. Alngar
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In this paper, we employ three integration algorithms, namely, the well‐known Kudryashov method, the new Kudryashov method, and the unified Riccati equation expansion method to extract optical soliton solutions for the generalized Kudryashov equation ...
E. Zayed, M. Alngar
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Soliton interaction in optical fibers
Optics Letters, 1987Interactions of solitons generated by pairs of optical pulses are studied using the perturbed nonlinear Schrödinger equation, which models nonlinear optical pulses in a monomode fiber. We examine the mechanism of the soliton interaction both analytically and numerically and show that a bound 2-soliton splits into individual solitons traveling with ...
Y, Kodama, K, Nozaki
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