Dynamics of cascaded resonant radiations in a dispersion-varying optical fiber

Bendahmane, Abdelkrim; Braud, Flavie; Conforti, Matteo; Barviau, Benoît; Mussot, Arnaud; Kudlinski, Alexandre

doi:10.1364/optica.1.000243

Cited by 39 publications

(28 citation statements)

References 24 publications

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“…[4] and [5] for complete reviews). More recently, it has been shown numerically [6,7] and experimentally [8][9][10] that, by using optical fibers whose group velocity dispersion (GVD) is engineered along their propagation axis, several RRs can be generated from a single soliton. Two different configurations can be distinguished.…”

mentioning

confidence: 99%

Multiple QPM Resonant Radiations Induced by MI in Dispersion Oscillating Fibers

Conforti

Trillo

Kudlinski

et al. 2016

IEEE Photon. Technol. Lett.

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The propagation of a continuous wave in the average anomalous dispersion region of a dispersion oscillating fiber is investigated numerically and experimentally. We demonstrate that the train of solitons arising from modulation instability is strongly affected by the periodic variations of the fiber dispersion. This leads to the emission of multiple resonant radiations located on both sides of the spectrum. Numerical simulations confirm the experimental results, and the position of the resonant radiations is well predicted by means of perturbation theory

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mentioning

confidence: 99%

Multiple QPM Resonant Radiations Induced by MI in Dispersion Oscillating Fibers

Conforti

Trillo

Kudlinski

et al. 2016

IEEE Photon. Technol. Lett.

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“…The recoil from the resonant radiation modifies the properties of the solitons [11,12] and affects the frequency of the soliton and the resonant radiation. A phenomenon closely related to Cherenkov radiation and very relevant for our present studies is the radiation of the dispersive waves by oscillating solitary structures such as high-order solitons or solitons in fibers with dispersion management that were investigated both theoretically [13] and experimentally [14]. Also spectral lines with similar characteristics were observed in the propagation of spatio-temporal oscillating nonlinear waves in multimode fibers [15].…”

Section: Introductionmentioning

confidence: 71%

Bloch oscillations and resonant radiation of light propagating in arrays of nonlinear fibers with high-order dispersion

2017

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Bloch oscillations of spatio-temporal light wave packets in arrays of nonlinear fibers with highorder dispersion are studied. The light wave experiences discrete spatial diffraction along the waveguide array coordinate together with continuous temporal dispersion including higher order terms. When a gradient in the waveguide light confinement strength is considered, the wave packet features robust long-lived Bloch oscillations with temporal and spatial spreading in the presence of a Kerr nonlinearity. The effect of spatial Bloch oscillations on the emission of the dispersive radiation by the solitary wave is analyzed. It is shown that Bloch oscillations result in the generation of new frequencies. The condition of resonant emission of dispersive waves is derived and it is demonstrated that it matches very well with the results of direct numerical simulations.

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“…A careful analysis of this process reveals that the continuously evolving GVD prevent the dispersive wave to strongly spread out in time [as expected in uniform fibers, see Fig. 2(d)] and allows to keep it relatively localized in time as a short pulse [34]. As a consequence, when crossing the ZDW, this pulse can emit another dispersive wave which we term cascaded dispersive wave (CDW1), in analogy with cascaded four-wave mixing processes.…”

Section: Cascading Of Dispersive Wavesmentioning

confidence: 80%

“…[34], the cascaded dispersive wave process is due to the fact that the dispersive wave initially generated experiences a GVD that varies with length, which allows it to remain temporally localized as a pulse to initiate the generation of a cascaded dispersive wave. Here, we will study this process more into details.…”

Section: Transformation Of a Dispersive Wave Into A Fundamental Solitonmentioning

confidence: 99%

Emission of Dispersive Waves from Solitons in Axially Varying Optical Fibers

Kudlinski¹,

Mussot²,

Conforti³

et al. 2017

Handbook of Optical Fibers

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The possibility of tailoring the guidance properties of optical fibers along the same direction as the evolution of the optical field allows to explore new directions in nonlinear fiber optics. The new degree of freedom offered by axiallyvarying optical fibers enables to revisit well-established nonlinear phenomena, and even to discover novel short pulse nonlinear dynamics. Here we study the impact of meter-scale longitudinal variations of group velocity dispersion on the propagation of bright solitons and on their associated dispersive waves. We show that the longitudinal tailoring of fiber properties allows to observe experimentally unique dispersive waves dynamics, such as the emission of cascaded, multiple or polychromatic dispersive waves.

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Dynamics of cascaded resonant radiations in a dispersion-varying optical fiber

Cited by 39 publications

References 24 publications

Multiple QPM Resonant Radiations Induced by MI in Dispersion Oscillating Fibers

Multiple QPM Resonant Radiations Induced by MI in Dispersion Oscillating Fibers

Bloch oscillations and resonant radiation of light propagating in arrays of nonlinear fibers with high-order dispersion

Emission of Dispersive Waves from Solitons in Axially Varying Optical Fibers

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