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 m, with experi...

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Veröffentlicht in:Optics letters 2022-05, Vol.47 (10), p.2550-2553
Hauptverfasser: Rao D S, Shreesha, Karpate, Tanvi, Nath Ghosh, Amar, Gonzalo, Iván B, Klimczak, Mariusz, Pysz, Dariusz, Buczyński, Ryszard, Billet, Cyril, Bang, Ole, Dudley, John M, Sylvestre, Thibaut
Format: Artikel
Sprache:eng
Schlagworte:
Crystal fibers
Dispersion
Fourier transforms
Noise intensity
Optics
Photonic crystals
Physics
Polarization modulation
Relative intensity noise
Tellurium dioxide
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Zusammenfassung: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 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.
ISSN:0146-9592
1539-4794
DOI:10.1364/OL.455571