Time/frequency-domain characterization of a mid-IR DFG frequency comb via two-photon and heterodyne detection.

Tecla Gabbrielli,Paolo De Natale,Alexander Kastner,Carsten Cleff,Luigi Consolino,Giacomo Insero,Simone Borri,Iacopo Galli,Francesco Cappelli,Jeong Hyun Huh,Ronald Holzwarth,Davide Mazzotti,Michele De Regis,Nicola Corrias,Paolo Bartolini

doi:10.1364/oe.493321

Time/frequency-domain characterization of a mid-IR DFG frequency comb via two-photon and heterodyne detection.

Tecla Gabbrielli, Paolo De Natale + Show 13 more

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https://doi.org/10.1364/oe.493321

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Journal: Optics Express	Publication Date: Oct 6, 2023
Citations: 2	License type: cc-by

Affiliation: European Laboratory for Non-Linear Spectroscopy, National Institute for Nuclear Physics, Istituto Nazionale di Ottica, Menlo Systems (Germany), University of Florence

#Mid-infrared Frequency Comb #Two-photon Detection + Show 8 more

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Abstract

Mid-infrared frequency combs are nowadays well-appreciated sources for spectroscopy and frequency metrology. Here, a comprehensive approach for characterizing a difference-frequency-generated mid-infrared frequency comb (DFG-comb) both in the time and in the frequency domain is presented. An autocorrelation scheme exploiting mid-infrared two-photon detection is used for characterizing the pulse width and to verify the optimal compression of the generated pulses reaching a pulse duration (FWHM) as low as 196 fs. A second scheme based on mid-infrared heterodyne detection employing two independent narrow-linewidth quantum cascade lasers (QCLs) is used for frequency-narrowing the modes of the DFG-comb down to 9.4 kHz on a 5-ms timescale.

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