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Schilt, Stephane

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Schilt, Stephane
Affiliation principale
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Ancien.ne collaborateur.trice
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https://libra.unine.ch/handle/123456789/492

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  • Publication
    Accès libre
    Cross-influence between the two servo-loops of a fully-stabilized Er:fiber optical frequency comb
    (2012-9-28)
    Dolgovskiy, Vladimir 
    ;
    Bucalovic, Nikola 
    ;
    Thomann, Pierre 
    ;
    Schori, Christian 
    ;
    Di Domenico, Gianni 
    ;
    Schilt, Stephane 
    We present a study of the impact of the cross-coupling between the two servo loops used to stabilize the repetition rate frep and the carrier-envelope offset (CEO) frequency fCEO in a commercial Er:fiber frequency comb, based on the combination of experimental measurements and a model of the coupled loops. The developed theoretical model enables us to quantify the influence of the servo-loop coupling on an optical comb line, by simulating the hypothetic case where no coupling would be present. Numerical values for the model were obtained from an extensive characterization of the comb, in terms of frequency noise and dynamic response to a modulation applied to each actuator, for both frep and fCEO. To validate the model, the frequency noise of an optical comb line at 1.56 μm was experimentally measured from the heterodyne beat between the comb and a cavity-stabilized ultranarrow-linewidth laser and showed good agreement with the calculated noise spectrum. The coupling between the two stabilization loops results in a more than 10-fold reduction of the comb mode frequency noise power spectral density in a wide Fourier frequency range.
  • Publication
    Accès libre
    Compact rubidium-stabilized multi-frequency reference source in the 1.55-μm region
    Matthey-De-L'Endroit, Renaud 
    ;
    Gruet, Florian 
    ;
    Schilt, Stephane 
    ;
    Mileti, Gaetano 
    Combining light modulation and frequency conversion techniques, a compact and simple frequency-stabilized optical frequency comb spanning over 45 nm in the 1.56- μm wavelength region is demonstrated. It benefits from the high-frequency stability achievable from rubidium atomic transitions at 780 nm probed in a saturation absorption scheme, which is transferred to the 1.56- μm spectral region via a second-harmonic generation process. The optical frequency comb is generated by an electro-optic modulator enclosed in a Fabry–Perot cavity that is injected by the fundamental frequency stabilized laser. Frequency stability better than 2 kHz has been demonstrated on time scales between 1000 s and 2 days both at 1560 nm, twice the rubidium wavelength, and for a comb line at 1557 nm.
  • Publication
    Accès libre
    All‑fiber versatile laser frequency reference at 2 μm for CO2 space‑borne lidar applications
    Schilt, Stephane 
    ;
    Matthey-De-L'Endroit, Renaud 
    ;
    Hey Tow, Kenny
    ;
    Thévenaz, Luc
    ;
    Südmeyer, Thomas 
    We present a frequency stabilized laser at 2051 nm based on a versatile all-fibered stabilization setup. A modulation sideband locking technique is implemented to lock the laser at a controlled frequency detuning from the center of the CO2 R(30) transition envisaged for space-borne differential absorption lidar (DIAL) applications. This method relies on the use of a compact all-fibered gas reference cell that makes the setup robust and immune to mechanically induced optical misalignments. The gas cell is fabricated using a hollow-core photonic crystal fiber filled with pure CO2 at a low pressure of ~20 mbar and hermetically sealed at both ends by splices to silica fibers. Different configurations of this fibered cell have been developed and are presented. With this technique, frequency stabilities below 40 kHz at 1-s integration time and <100 kHz up to 1000-s averaging time were achieved for a laser detuning by around 1 GHz from the center of the CO2 transition. These stabilities are compliant with typical requirements for the reference seed source for a space CO2 DIAL.
  • Publication
    Accès libre
    All-electrical frequency noise reduction and linewidth narrowing in quantum cascade lasers
    Sargachev, Ilia
    ;
    Maulini, Richard
    ;
    Bismuto, Alfredo
    ;
    Blaser, Stéphane
    ;
    Gresch, Tobias
    ;
    Bidaux, Yves
    ;
    Müller, Antoine
    ;
    Schilt, Stephane 
    ;
    Südmeyer, Thomas 
    A novel all-electrical method of frequency noise reduction in quantum cascade lasers (QCLs) is proposed. Electrical current through the laser was continuously adjusted to compensate for fluctuations of the laser internal resistance, which led to an active stabilization of the optical emission frequency. A reduction of the linewidth from 1.7 MHz in the standard constant current mode of operation down to 480 kHz is demonstrated at 10-ms observation time when applying this method to a QCL emitting at 7.9 μm.