Experimental observation of the spatio-temporal dynamics of breather gases in a recirculating fiber loop

François Copie; Gino Biondini; Jeffrey Oregero; Gennady El; Pierre Suret; Stéphane Randoux

doi:10.1364/ol.572781

Experimental observation of the spatio-temporal dynamics of breather gases in a recirculating fiber loop

François Copie, Gino Biondini, Jeffrey Oregero, Gennady El, Pierre Suret, Stéphane Randoux^*

^*Corresponding author for this work

School of Engineering Physics and Mathematics

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

Abstract

We report the experimental observation of breather gases (BGs) in optics, realized in a recirculating fiber loop that enables virtually lossless propagation over 1200 km. Initiated by a slowly modulated optical background perturbed by noise, the BGs form through a nonlinear fission process and demonstrate spatiotemporal dynamics that align closely with numerical simulations of the focusing one-dimensional nonlinear Schrödinger equation. The minimal dissipation in our setup enables a statistical characterization of the BGs and confirms the theoretically predicted doubling of kurtosis during the evolution of the BGs. To our knowledge, these results open new avenues for experimental studies of integrable turbulence involving solitons on a finite background.

Original language	English
Pages (from-to)	7043-7046
Number of pages	4
Journal	Optics Letters
Volume	50
Issue number	22
Early online date	10 Nov 2025
DOIs	https://doi.org/10.1364/ol.572781
Publication status	Published - 15 Nov 2025

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10.1364/ol.572781

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title = "Experimental observation of the spatio-temporal dynamics of breather gases in a recirculating fiber loop",

abstract = "We report the experimental observation of breather gases (BGs) in optics, realized in a recirculating fiber loop that enables virtually lossless propagation over 1200 km. Initiated by a slowly modulated optical background perturbed by noise, the BGs form through a nonlinear fission process and demonstrate spatiotemporal dynamics that align closely with numerical simulations of the focusing one-dimensional nonlinear Schr{\"o}dinger equation. The minimal dissipation in our setup enables a statistical characterization of the BGs and confirms the theoretically predicted doubling of kurtosis during the evolution of the BGs. To our knowledge, these results open new avenues for experimental studies of integrable turbulence involving solitons on a finite background.",

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AU - Copie, François

AU - Biondini, Gino

AU - Oregero, Jeffrey

AU - El, Gennady

AU - Suret, Pierre

AU - Randoux, Stéphane

PY - 2025/11/15

Y1 - 2025/11/15

N2 - We report the experimental observation of breather gases (BGs) in optics, realized in a recirculating fiber loop that enables virtually lossless propagation over 1200 km. Initiated by a slowly modulated optical background perturbed by noise, the BGs form through a nonlinear fission process and demonstrate spatiotemporal dynamics that align closely with numerical simulations of the focusing one-dimensional nonlinear Schrödinger equation. The minimal dissipation in our setup enables a statistical characterization of the BGs and confirms the theoretically predicted doubling of kurtosis during the evolution of the BGs. To our knowledge, these results open new avenues for experimental studies of integrable turbulence involving solitons on a finite background.

AB - We report the experimental observation of breather gases (BGs) in optics, realized in a recirculating fiber loop that enables virtually lossless propagation over 1200 km. Initiated by a slowly modulated optical background perturbed by noise, the BGs form through a nonlinear fission process and demonstrate spatiotemporal dynamics that align closely with numerical simulations of the focusing one-dimensional nonlinear Schrödinger equation. The minimal dissipation in our setup enables a statistical characterization of the BGs and confirms the theoretically predicted doubling of kurtosis during the evolution of the BGs. To our knowledge, these results open new avenues for experimental studies of integrable turbulence involving solitons on a finite background.

U2 - 10.1364/ol.572781

DO - 10.1364/ol.572781

M3 - Article

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EP - 7046

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