Adrien Longa scite author profile

Adrien Longa

4Publications

6Citation Statements Received

0Citation Statements Given

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113

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Centre National de la Recherche Scientifique, Institut National de la Recherche Scientifique

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Complete characterization of a Yb-based OPA at a high repetition rate using frequency resolved optical switching

et al. 2023

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We demonstrate experimentally that frequency resolved optical switching (FROSt) can be used to characterize ultra-broadband pulses at high repetition rates up to 500 kHz. Specifically, we present the complete temporal characterization of an optical parametric amplifier (OPA), from the supercontinuum (SC) to the second stage of amplification. Simultaneous characterization of co-propagating signal and idler pulses enables retrieval of their group delay, as well as their temporal phase and intensity. Our study focuses on an extensive frequency range spanning the infrared region (1.2 to 2.4 µm) and confirms the strength and convenience of FROSt as a single tool for characterizing a wide range of pulses at high repetition rates.

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Temporal Characterization of a Supercontinuum at 500 kHz Repetition Rate Using Frequency Resolved Optical Switching

Haddad¹,

Longa²,

Lassonde³

et al. 2022

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Spectral phase sensitivity of frequency resolved optical switching for broadband IR pulse characterization

et al. 2022

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In this work, we demonstrate the sensitivity of the frequency-resolved optical switching (FROSt) technique to detect a small amount of spectral phase shift for the precise characterization of ultrashort laser pulses. We characterized fs pulses centered at 1.75 µm that are spectrally broadened up to 700 nm of bandwidth in a hollow-core fiber and subsequently compressed down to 2.3 optical cycle duration by propagation in the air at atmospheric pressure. By inserting thin fused silica windows of different thicknesses in the beam path, we accurately retrieve group delay dispersion (GDD) variations as small as 10 fs2. Such GDD variations correspond to a change of the pulse duration of only 0.2 fs for a Fourier transform limited 2-cycle pulse at 1.75 µm (i.e., 11.8 fs). The capability to measure such tiny temporal variations thus demonstrates that the FROSt technique has sufficient sensitivity to precisely characterize single-cycle pulses.

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Few-cycle Yb laser source at 20 kHz using multidimensional solitary states in hollow-core fibers

et al. 2022

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We demonstrate ultrashort pulse compression from 300 fs down to 17 fs at a repetition rate of 20 kHz and 160-µJ output pulse energy (3.2 W of average power) using multidimensional solitary states (MDSS) in a 1-meter hollow-core fiber (HCF) filled with N2O. Under static pressure, thermal limitations at this repetition rate annihilate the MDSS with suppression of spectral broadening. The results obtained in differential pressure configuration mitigate thermal effects and significantly increase the range of repetition rate over which MDSS can be used to compress sub-picosecond laser pulses.

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Adrien Longa

Complete characterization of a Yb-based OPA at a high repetition rate using frequency resolved optical switching

Temporal Characterization of a Supercontinuum at 500 kHz Repetition Rate Using Frequency Resolved Optical Switching

Spectral phase sensitivity of frequency resolved optical switching for broadband IR pulse characterization

Few-cycle Yb laser source at 20 kHz using multidimensional solitary states in hollow-core fibers

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