Parabolic pulse generation in short fiber amplifiers

Schukarev, Igor; Коробко, Д. А.; Zolotovskii, I. O.

doi:10.1088/2040-8986/ab42bd

Cited by 2 publications

(2 citation statements)

References 24 publications

(38 reference statements)

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“…One of the effects accompanying USP propagation is the modulation instability (MI) that can be employed both for USP generation and control of USP repetition rate [15,[25][26][27][28][29]. In this process, the light evolution exhibits periodic behavior.…”

Section: Introductionmentioning

confidence: 99%

Amplification and Generation of Frequency-Modulated Soliton Pulses in Nonuniform Active Fiber Configurations

et al. 2022

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We report on the theoretical and numerical analysis of the nonlinear Schrödinger equation describing the dynamical evolution of frequency-modulated (FM) optical signals propagating through the fiber configuration comprising active fibers with the anomalous dispersion nonuniformly distributed over the fiber length. In our consideration, a single active fiber section including segments with initially increasing and then decreasing dispersion is used for amplification and compression of an external FM pulse resulting in an increase of ~6 orders of magnitude in the pulse peak power and a 100-fold narrowing of the pulse duration down to a few picoseconds. Moreover, we demonstrate that, with a ~1 mW weakly modulated continuous wave input signal, the fiber configuration comprising two active fiber sections with different dispersion profiles is able to generate a strongly periodic pulse train, resulting in a pulse repetition rate >100 GHz, a pulse duration ~0.5 ps, and peak power up to ~1 kW. An evolution of optical signals governed by modulation instability in both fiber configurations is explored.

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Section: Introductionmentioning

confidence: 99%

Amplification and Generation of Frequency-Modulated Soliton Pulses in Nonuniform Active Fiber Configurations

et al. 2022

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“…Self-similar parabolic pulse generation in single-mode fibers (SMFs), first predicted in 1993 by Anderson et al (1993) and then demonstrated in 2000 by Fermann et al (2000), has been widely investigated and is still an active area of research due to its unique characteristics and numerous applications for potential scaling approach of fiber laser systems to unprecedented pulse energy and power levels (Kruglov et al 2002;Hirooka and Nakazawa 2004;Finot et al 2006Finot et al , 2007Boscolo et al 2008;Ghosh et al 2009;Iakushev et al 2012;Biswas et al 2016;Liu et al 2017;Chowdhury et al 2019;Schukarev et al 2019). Such pulse is an attractor solution to the nonlinear Schrödinger equation (NLSE) in a normal dispersion regime with the presence of nonlinearity.…”

Section: Introductionmentioning

confidence: 99%

Spatiotemporal dynamics of self-similar parabolic pulse evolution in multimode fibers

Graini

Ortaç

2022

Opt Quant Electron

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In this paper, we have investigated for the first time, the spatiotemporal dynamics of selfsimilar parabolic pulse evolution in multimode fibers. Two types of fiber are considered, graded-index and step-index MMFs. For the quality of the generated parabolic pulse, the mismatch parameter is used. A thorough study of the evolution of the pulse parameters as a function of the initial parameters has been carried out. As a result, the initial pulse evolved into a linearly chirped pulse with a parabolic intensity shape in both fibers, under the predominantly excitation of the fundamental mode. It has been shown, in particular, that the pulse can be compressed to a temporal duration of about 40 fs. Moreover, a spatiotemporal nonlinear dynamic, beam auto-selection, of one specific mode, is investigated through graded-index MMF, under the different initial modes excitation. The parabolic pulse formation process plays a critical role in this nonlinear dynamic. This approach provides another framework to understand the complex nonlinear dynamics in MMFs.

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Parabolic pulse generation in short fiber amplifiers

Cited by 2 publications

References 24 publications

Amplification and Generation of Frequency-Modulated Soliton Pulses in Nonuniform Active Fiber Configurations

Amplification and Generation of Frequency-Modulated Soliton Pulses in Nonuniform Active Fiber Configurations

Spatiotemporal dynamics of self-similar parabolic pulse evolution in multimode fibers

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