Analysis of the dispersive Fourier transform dataset using dynamic mode decomposition: evidence of multiple vibrational modes and their interplay in a three-soliton molecule

Anastasiia Sheveleva; Saïd Hamdi; Aurélien Coillet; Christophe Finot; Pierre Colman

doi:10.1364/OL.488968

Optics Letters
Vol. 48,
Issue 11,
pp. 3015-3018
(2023)
•https://doi.org/10.1364/OL.488968

Analysis of the dispersive Fourier transform dataset using dynamic mode decomposition: evidence of multiple vibrational modes and their interplay in a three-soliton molecule

Anastasiia Sheveleva, Saïd Hamdi, Aurélien Coillet, Christophe Finot, and Pierre Colman

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Anastasiia Sheveleva, Saïd Hamdi, Aurélien Coillet, Christophe Finot, and Pierre Colman, "Analysis of the dispersive Fourier transform dataset using dynamic mode decomposition: evidence of multiple vibrational modes and their interplay in a three-soliton molecule," Opt. Lett. 48, 3015-3018 (2023)

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Abstract

We demonstrate that the dynamic mode decomposition technique can effectively reduce the amount of noise in the dispersive Fourier transform dataset and allow for finer quantitative analysis of the experimental data. We therefore show that the oscillation pattern of a soliton molecule actually results from the interplay of several elementary vibration modes.

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Supplementary Material (1)

Name	Description
Visualization 1	Animation showing the fundamental vibration modes of the 3-soliton molecule

Data availability

Data underlying the results presented in this paper are not publicly available at this time but may be obtained from the authors upon reasonable request.

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