Results 211 to 220 of about 2,910,723 (266)
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A wide spectrum of optical solitons for the dispersive concatenation model
Journal of Optics, 2023A. Arnous +5 more
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SOLITON–SOLITON INTERACTION IN OPTICAL FIBERS
Journal of Nonlinear Optical Physics & Materials, 1999In an optical communication system it is necessary to place the solitons close to one another to increase the information carrying capacity of the fiber. The theory of soliton–soliton interaction in a fiber optic communication system, through a single channel, is studied in this paper. In presence of the perturbation terms, the two soliton interaction
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Optical solitons in metamaterials with third and fourth order dispersions
Optical and quantum electronics, 2022T. Mathanaranjan +3 more
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Optical and Quantum Electronics, 1998
It is almost common knowledge now that particles also possess properties of waves. But, can localized wave-packets behave and interact like particles? This article is dedicated to self-trapped optical beams: how they form and how they interact with each other, showing that their particle-like behaviour is a general feature that manifests itself in many
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It is almost common knowledge now that particles also possess properties of waves. But, can localized wave-packets behave and interact like particles? This article is dedicated to self-trapped optical beams: how they form and how they interact with each other, showing that their particle-like behaviour is a general feature that manifests itself in many
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Effective amplification of optical solitons in high power transmission systems
Nonlinear dynamics, 2022Qin Zhou +3 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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Optical solitons of nonlinear complex Ginzburg–Landau equation via two modified expansion schemes
Optical and quantum electronics, 2021A. Zafar +4 more
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