Noise in supercontinuum generated using PM and non-PM tellurite glass all-normal dispersion fibers
Noise in supercontinuum generated using PM and non-PM tellurite glass all-normal dispersion fibers
Intensity fluctuations in supercontinuum generation are studied in polarization-maintaining (PM) and non-PM all-normal dispersion tellurite photonic crystal fibers. Dispersive Fourier transformation is used to resolve the shot-to-shot spectra generated using 225-fs pump pulses at 1.55 µm, with experimental results well reproduced by vector and scalar numerical simulations. By comparing the relative intensity noise for the PM and non-PM cases, supported by simulations, we demonstrate the advantage of the polarization-maintaining property of the PM fibers in preserving low-noise dynamics. We associate the low-noise in the PM case with the suppression of polarization modulation instability.
2550-2553
D. S., Shreesha Rao
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Karpate, Tanvi
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Ghosh, Amar
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Gonzalo, Iván B.
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Klimczak, Mariusz
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Pysz, Dariusz
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Buczyński, Ryszard
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Billet, Cyril
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Bang, Ole
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Dudley, John M.
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Sylvestre, Thibaut
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9 May 2022
D. S., Shreesha Rao
4bffcab4-2915-468e-8116-1af44262dbad
Karpate, Tanvi
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Ghosh, Amar
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Gonzalo, Iván B.
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Klimczak, Mariusz
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Pysz, Dariusz
365903ba-d7e5-4804-8e23-352324d7d118
Buczyński, Ryszard
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Billet, Cyril
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Bang, Ole
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Dudley, John M.
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Sylvestre, Thibaut
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D. S., Shreesha Rao, Karpate, Tanvi, Ghosh, Amar, Gonzalo, Iván B., Klimczak, Mariusz, Pysz, Dariusz, Buczyński, Ryszard, Billet, Cyril, Bang, Ole, Dudley, John M. and Sylvestre, Thibaut
(2022)
Noise in supercontinuum generated using PM and non-PM tellurite glass all-normal dispersion fibers.
Optics Letters, 47 (10), , [10].
(doi:10.1364/OL.455571).
Abstract
Intensity fluctuations in supercontinuum generation are studied in polarization-maintaining (PM) and non-PM all-normal dispersion tellurite photonic crystal fibers. Dispersive Fourier transformation is used to resolve the shot-to-shot spectra generated using 225-fs pump pulses at 1.55 µm, with experimental results well reproduced by vector and scalar numerical simulations. By comparing the relative intensity noise for the PM and non-PM cases, supported by simulations, we demonstrate the advantage of the polarization-maintaining property of the PM fibers in preserving low-noise dynamics. We associate the low-noise in the PM case with the suppression of polarization modulation instability.
Text
2203.05388
- Accepted Manuscript
More information
Accepted/In Press date: 18 April 2022
Published date: 9 May 2022
Additional Information:
arXiv:2203.05388
Identifiers
Local EPrints ID: 457429
URI: http://eprints.soton.ac.uk/id/eprint/457429
ISSN: 0146-9592
PURE UUID: b9c9941b-61cf-4158-b552-48c52952c4cb
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Date deposited: 07 Jun 2022 16:59
Last modified: 10 Oct 2024 02:00
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Contributors
Author:
Shreesha Rao D. S.
Author:
Tanvi Karpate
Author:
Amar Ghosh
Author:
Iván B. Gonzalo
Author:
Mariusz Klimczak
Author:
Dariusz Pysz
Author:
Ryszard Buczyński
Author:
Cyril Billet
Author:
Ole Bang
Author:
John M. Dudley
Author:
Thibaut Sylvestre
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