S
Stéphane Pitois
Researcher at University of Burgundy
Publications - 134
Citations - 2928
Stéphane Pitois is an academic researcher from University of Burgundy. The author has contributed to research in topics: Optical fiber & Polarization (waves). The author has an hindex of 30, co-authored 134 publications receiving 2706 citations. Previous affiliations of Stéphane Pitois include Centre national de la recherche scientifique.
Papers
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Journal ArticleDOI
Frequency-agile dual-comb spectroscopy
Guy Millot,Stéphane Pitois,Ming Yan,Tatevik Hovhannisyan,Abdelkrim Bendahmane,Theodor W. Hänsch,Nathalie Picqué +6 more
TL;DR: In this article, a new architecture for dual-comb spectroscopy based on all-fibre tunable frequency comb sources using standard telecommunication fibre optics components is proposed.
Journal ArticleDOI
Experimental observation of a new modulational instability spectral window induced by fourth-order dispersion in a normally dispersive single-mode optical fiber
Stéphane Pitois,Guy Millot +1 more
TL;DR: In this article, the influence of the fourth-order dispersion on the onset of scalar spontaneous modulational instability (MI) in a single-mode optical fiber was investigated, and the measured modulation frequencies were in very good agreement with those obtained from the linear stability analysis.
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Spectral broadening of a partially coherent CW laser beam in single-mode optical fibers
TL;DR: Broadband asymmetric spectral broadening is reported experimentally and found in fairly good agreement with a numerical Schrödinger simulation including a phase-diffusion model for the partially coherent beam.
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Er3+-doped GeGaSbS glasses for mid-IR fibre laser application: Synthesis and rare earth spectroscopy
Virginie Moizan,Virginie Nazabal,Johann Troles,Patrick Houizot,Jean-Luc Adam,Jean-Louis Doualan,Richard Moncorgé,Frédéric Smektala,Grégory Gadret,Stéphane Pitois,Guillaume Canat +10 more
TL;DR: In this paper, the authors evaluated the Er3+-doped Ge20Ga5Sb10S65 glass as a potential fiber laser source operating in the 3-5 µm mid-IR spectral region.
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20-GHz-to-1-THz Repetition Rate Pulse Sources Based on Multiple Four-Wave Mixing in Optical Fibers
TL;DR: In this paper, the authors theoretically and experimentally study the generation of very high-repetition-rate pulse sources based on multiple four-wave mixing in optical fibers, and they described the nearly transform-limited pulses at repetition rates of 20, 40, 80, 160, 320, 640 GHz, and 1 THz with a wavelength tunability close to 20 nm around 1555nm.