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Phase Noise Characterization of Cr:ZnS Frequency Comb using Subspace Tracking

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posted on 2024-08-31, 09:36 authored by Aleksandr Razumov, Sergey Vasilyev, Mike Mirov, Jasper Riebesehl, Holger Heebøll, Francesco Da Ros, Darko Zibar
We present a comprehensive phase noise characterization of a mid-IR Cr:ZnS frequency comb. Despite their emergence as a platform for high-resolution dual-comb spectroscopy, detailed investigations into the phase noise of Cr:ZnS combs have been lacking. To address this, we use a recently proposed phase noise measurement technique that employs multi-heterodyne detection and subspace tracking. This allows for the measurement of the common mode, repetition-rate and high- order phase noise terms, and their corresponding scaling as a function of a comb-line number, using a single measurement set-up. We demonstrate that the comb under test is dominated by the common mode phase noise, while all the other phase noise terms are below the measurement noise floor (∼ −120 dB rad2/Hz), and are thereby not identifiable.

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Funder Name

Villum Fonden (VI-POPCOM VIL5448,OPTIC-AI VIL29334)

Preprint ID

116907

Highlighter Commentary

The authors characterize the phase noise of a mid-IR Cr:ZnS frequency comb using a “subspace tracking method,” which is essentially a numeric reconstruction of the eigenmode phase noise of various sources. Their method uses the beatnote signal between the comb and a stable laser and shows that the comb’s phase noise is mainly dominated by its common mode aspect. -- Xin Xie, Atom Computing, Inc., Berkeley, CA, USA

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