Thresholdless discrete surface solitons and stability switchings in periodically curved waveguides

H. Jiang; H. Susanto; T. M. Benson; K. A. Cliffe

doi:10.1364/OL.38.001921

Thresholdless discrete surface solitons and stability switchings in periodically curved waveguides

H. Jiang
, H. Susanto
, T. M. Benson
, K. A. Cliffe

Mathematics

University of Nottingham

Research output: Contribution to journal › Article › peer-review

Abstract

We study numerically a parametrically driven discrete nonlinear Schrödinger equation modeling periodically curved waveguide arrays. We show that discrete surface solitons persist, but their threshold power is altered by the drive. There are critical drives at which the threshold values vanish. We also show that parametric drives can create resonance with a phonon making a barrier for discrete solitons. By calculating the corresponding Floquet multipliers, we find that the stability of symmetric and antisymmetric off-side discrete surface solitons switches approximately at the critical drives for thresholdless solitons.

Original language	British English
Pages (from-to)	1921-1923
Number of pages	3
Journal	Optics Letters
Volume	38
Issue number	11
DOIs	https://doi.org/10.1364/OL.38.001921
State	Published - 1 Jun 2013

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abstract = "We study numerically a parametrically driven discrete nonlinear Schr{\"o}dinger equation modeling periodically curved waveguide arrays. We show that discrete surface solitons persist, but their threshold power is altered by the drive. There are critical drives at which the threshold values vanish. We also show that parametric drives can create resonance with a phonon making a barrier for discrete solitons. By calculating the corresponding Floquet multipliers, we find that the stability of symmetric and antisymmetric off-side discrete surface solitons switches approximately at the critical drives for thresholdless solitons.",

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AU - Benson, T. M.

AU - Cliffe, K. A.

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N2 - We study numerically a parametrically driven discrete nonlinear Schrödinger equation modeling periodically curved waveguide arrays. We show that discrete surface solitons persist, but their threshold power is altered by the drive. There are critical drives at which the threshold values vanish. We also show that parametric drives can create resonance with a phonon making a barrier for discrete solitons. By calculating the corresponding Floquet multipliers, we find that the stability of symmetric and antisymmetric off-side discrete surface solitons switches approximately at the critical drives for thresholdless solitons.

AB - We study numerically a parametrically driven discrete nonlinear Schrödinger equation modeling periodically curved waveguide arrays. We show that discrete surface solitons persist, but their threshold power is altered by the drive. There are critical drives at which the threshold values vanish. We also show that parametric drives can create resonance with a phonon making a barrier for discrete solitons. By calculating the corresponding Floquet multipliers, we find that the stability of symmetric and antisymmetric off-side discrete surface solitons switches approximately at the critical drives for thresholdless solitons.

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Thresholdless discrete surface solitons and stability switchings in periodically curved waveguides

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