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Dynamics of soliton explosions in passively mode-locked fiber Lasers

Dynamics of soliton explosions in passively mode-locked fiber Lasers
Dynamics of soliton explosions in passively mode-locked fiber Lasers
A soliton explosion is an instability whereby a dissipative soliton undergoes a sudden structural collapse but remarkably returns back to its original shape after a short transient. We recently reported the first experimental observation of this effect in a fiber laser [Optica 2, 36 (2015)]. Here, we expand on our initial work, presenting a more detailed experimental and numerical study of the characteristics and dynamics of soliton explosions in passively mode-locked fiber lasers. Specifically, we explore different cavity configurations and gain levels, observing and characterizing explosion events using spectral and temporal real-time single-shot techniques. Our results highlight that the explosion characteristics observed in experiments depend critically on the position in the cavity where the output coupler is located. Furthermore, we find that the probability with which explosions occur depends on the pump power. We also identify a new kind of “partial” explosion, where strong spectral interference fringes appear on the pulse spectra, but a full collapse is avoided. Finally, we perform numerical simulations based on a realistic iterative cavity map and obtain results that are in good qualitative agreement with experimental measurements. Careful analysis of the simulation results provides strong credence to the interpretation that soliton explosions can be linked to a multipulsing instability.
0740-3224
46-53
Runge, Antoine F.J.
874cec37-209b-4c7a-97a5-56d05596dd2b
Broderick, Neil G.R.
1b3f7d34-4fd4-4ec5-9b90-c3cfb176f757
Erkintalo, Miro
1ae69a1b-448e-4284-b475-08bb3c32dbce
Runge, Antoine F.J.
874cec37-209b-4c7a-97a5-56d05596dd2b
Broderick, Neil G.R.
1b3f7d34-4fd4-4ec5-9b90-c3cfb176f757
Erkintalo, Miro
1ae69a1b-448e-4284-b475-08bb3c32dbce

Runge, Antoine F.J., Broderick, Neil G.R. and Erkintalo, Miro (2016) Dynamics of soliton explosions in passively mode-locked fiber Lasers. Journal of the Optical Society of America B, 33 (1), 46-53. (doi:10.1364/JOSAB.33.000046).

Record type: Article

Abstract

A soliton explosion is an instability whereby a dissipative soliton undergoes a sudden structural collapse but remarkably returns back to its original shape after a short transient. We recently reported the first experimental observation of this effect in a fiber laser [Optica 2, 36 (2015)]. Here, we expand on our initial work, presenting a more detailed experimental and numerical study of the characteristics and dynamics of soliton explosions in passively mode-locked fiber lasers. Specifically, we explore different cavity configurations and gain levels, observing and characterizing explosion events using spectral and temporal real-time single-shot techniques. Our results highlight that the explosion characteristics observed in experiments depend critically on the position in the cavity where the output coupler is located. Furthermore, we find that the probability with which explosions occur depends on the pump power. We also identify a new kind of “partial” explosion, where strong spectral interference fringes appear on the pulse spectra, but a full collapse is avoided. Finally, we perform numerical simulations based on a realistic iterative cavity map and obtain results that are in good qualitative agreement with experimental measurements. Careful analysis of the simulation results provides strong credence to the interpretation that soliton explosions can be linked to a multipulsing instability.

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More information

Accepted/In Press date: 17 November 2015
e-pub ahead of print date: 19 November 2015
Published date: January 2016
Learn more about Optoelectronics Research Centre research

Identifiers

Local EPrints ID: 441664
URI: http://eprints.soton.ac.uk/id/eprint/441664
DOI: doi:10.1364/JOSAB.33.000046
ISSN: 0740-3224
PURE UUID: 5555c7a6-58c5-4cec-8ce8-4e978adb77c8

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Date deposited: 23 Jun 2020 16:54
Last modified: 16 Mar 2024 08:15

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Contributors

Author: Antoine F.J. Runge
Author: Neil G.R. Broderick
Author: Miro Erkintalo

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