Erwan Weckenmann scite author profile

Dual-comb spectroscopy using a silicon Mach-Zehnder modulator is reported for the first time. First, the properties of frequency combs generated by silicon modulators are assessed in terms of tunability, coherence, and number of lines. Then, taking advantage of the frequency agility of electro-optical frequency combs, a new technique for fine resolution absorption spectroscopy is proposed, named frequency-tuning dual-comb spectroscopy, which combines dual-comb spectroscopy and frequency spacing tunability to measure optical spectra with detection at a unique RF frequency. As a proof of concept, a 24 GHz optical bandwidth is scanned with a 1 GHz resolution.

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Silicon photonics phase and intensity modulators for flat frequency comb generation

Deniel

Weckenmann²,

Pérez‐Galacho

et al. 2021

Photon. Res.

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Flat electro-optical frequency combs play an important role in a wide range of applications, such as metrology, spectroscopy, or microwave photonics. As a key technology for the integration of optical circuits, silicon photonics could benefit from on-chip, tunable, flat frequency comb generators. In this article, two different architectures based on silicon modulators are studied for this purpose. They rely on a time to frequency conversion principle to shape the comb envelope. Using a numerical model of the silicon traveling-wave phase modulators, their driving schemes are optimized before their performances are simulated and compared. A total of nine lines could be obtained within a 2 dB flatness, with a line-spacing ranging from 0.1 to 7 GHz. Since this tunability is a major asset of electro-optical frequency combs, the effect of segmenting the phase modulators is finally investigated, showing that the flat lines spacing could be extended up to 39 GHz by this method.

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Comprehensive frequency chirp characterization of silicon ring resonator modulators

Weckenmann

Bramerie

Pérez-Galacho

et al. 2020

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Frequency comb generation and dual comb spectrocopy using silicon modulators

Marris‐Morini

Deniel

Weckenmann³

et al. 2021

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Silicon ring modulator for broadband electro-optical frequency comb generation

Deniel

Weckenmann

Pérez‐Galacho

et al. 2021

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