Noise in supercontinuum generated using PM and non-PM tellurite glass all-normal dispersion fibers

Shreesha Rao D. S.; Tanvi Karpate; Amar Nath Ghosh; Amar Nath Ghosh; Iván B. Gonzalo; Mariusz Klimczak; Dariusz Pysz; Ryszard Buczyński; Ryszard Buczyński; Cyril Billet; Ole Bang; Ole Bang; John M. Dudley; Thibaut Sylvestre

doi:10.1364/OL.455571

Optics Letters
Vol. 47,
Issue 10,
pp. 2550-2553
(2022)
•https://doi.org/10.1364/OL.455571

Noise in supercontinuum generated using PM and non-PM tellurite glass all-normal dispersion fibers

Shreesha Rao D. S., Tanvi Karpate, Amar Nath Ghosh, Iván B. Gonzalo, Mariusz Klimczak, Dariusz Pysz, Ryszard Buczyński, Cyril Billet, Ole Bang, John M. Dudley, and Thibaut Sylvestre

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Shreesha Rao D. S., Tanvi Karpate, Amar Nath Ghosh, Iván B. Gonzalo, Mariusz Klimczak, Dariusz Pysz, Ryszard Buczyński, Cyril Billet, Ole Bang, John M. Dudley, and Thibaut Sylvestre, "Noise in supercontinuum generated using PM and non-PM tellurite glass all-normal dispersion fibers," Opt. Lett. 47, 2550-2553 (2022)

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- Ultrafast Optics
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About this Article
History
- Original Manuscript: February 15, 2022
- Revised Manuscript: April 17, 2022
- Manuscript Accepted: April 18, 2022
- Published: May 9, 2022

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 $\mathrm{\mu}$m, 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.

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