Limits of coherent supercontinuum generation in normal dispersion fibers
Limits of coherent supercontinuum generation in normal dispersion fibers
We study the largely unexplored transition between coherent and noise-seeded incoherent continuum generation in all-normal dispersion (ANDi) fibers and show that highly coherent supercontinua with spectral bandwidths of one octave can be generated with long pump pulses of up to 1.5 ps duration, corresponding to soliton orders of up to N = 600. In terms of N, this corresponds to an approximately 50 times increase of the coherent regime compared to anomalous dispersion pumping. In the transition region between coherent and incoherent spectral broadening we observe the manifestation of nonlinear phenomena that we term incoherent cloud formation and incoherent optical wave breaking, which lead to a gradual or instantaneous coherence collapse of SC spectral components, respectively. The role played by stimulated Raman scattering and parametric four-wave mixing during SC generation in ANDi fibers is shown to be more extensive than previously recognized: their nonlinear coupling contributes to the suppression of incoherent dynamics at short pump pulse durations, while it is responsible for non-phasematched parametric amplification of noise observed in the long pulse regime. We further discuss the dependence of SC coherence on fiber design, and present basic experimental verifications for our findings using single-shot detection of SC spectra generated by picosecond pulses. This work outlines both the further potential as well as the limitations of broadband coherent light source development for applications such as metrology, nonlinear imaging, and ultrafast photonics, amongst others.
764-775
Heidt, Alex
18f56d74-848c-420c-9ece-715e3e94e97a
Feehan, James
8cd61da3-a8ac-4373-b785-36c8806f2047
Price, Jonathan
fddcce17-291b-4d01-bd38-8fb0453abdc8
Feurer, Thomas
dc466e46-6b30-48cd-bf4c-9bf4f8b59acc
8 March 2017
Heidt, Alex
18f56d74-848c-420c-9ece-715e3e94e97a
Feehan, James
8cd61da3-a8ac-4373-b785-36c8806f2047
Price, Jonathan
fddcce17-291b-4d01-bd38-8fb0453abdc8
Feurer, Thomas
dc466e46-6b30-48cd-bf4c-9bf4f8b59acc
Heidt, Alex, Feehan, James, Price, Jonathan and Feurer, Thomas
(2017)
Limits of coherent supercontinuum generation in normal dispersion fibers.
Journal of the Optical Society of America B, 34 (4), .
(doi:10.1364/JOSAB.34.000764).
Abstract
We study the largely unexplored transition between coherent and noise-seeded incoherent continuum generation in all-normal dispersion (ANDi) fibers and show that highly coherent supercontinua with spectral bandwidths of one octave can be generated with long pump pulses of up to 1.5 ps duration, corresponding to soliton orders of up to N = 600. In terms of N, this corresponds to an approximately 50 times increase of the coherent regime compared to anomalous dispersion pumping. In the transition region between coherent and incoherent spectral broadening we observe the manifestation of nonlinear phenomena that we term incoherent cloud formation and incoherent optical wave breaking, which lead to a gradual or instantaneous coherence collapse of SC spectral components, respectively. The role played by stimulated Raman scattering and parametric four-wave mixing during SC generation in ANDi fibers is shown to be more extensive than previously recognized: their nonlinear coupling contributes to the suppression of incoherent dynamics at short pump pulse durations, while it is responsible for non-phasematched parametric amplification of noise observed in the long pulse regime. We further discuss the dependence of SC coherence on fiber design, and present basic experimental verifications for our findings using single-shot detection of SC spectra generated by picosecond pulses. This work outlines both the further potential as well as the limitations of broadband coherent light source development for applications such as metrology, nonlinear imaging, and ultrafast photonics, amongst others.
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Accepted/In Press date: 7 February 2017
e-pub ahead of print date: 9 February 2017
Published date: 8 March 2017
Organisations:
Optoelectronics Research Centre
Identifiers
Local EPrints ID: 410295
URI: http://eprints.soton.ac.uk/id/eprint/410295
ISSN: 0740-3224
PURE UUID: fa5ad0a6-e63d-4b43-9bfa-546b57b47449
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Date deposited: 11 Sep 2017 16:32
Last modified: 16 Mar 2024 05:06
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Author:
Alex Heidt
Author:
James Feehan
Author:
Jonathan Price
Author:
Thomas Feurer
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