Ultrabroadband out-of-loop characterization of the carrier-envelope phase noise of an offset-free Er:fiber frequency comb | Zendy

Andreas Liehl | Zendy; David Fehrenbacher | Zendy; Philipp Sulzer | Zendy; Alfred Leitenstorfer | Zendy; Denis V. Seletskiy | Zendy

Open Access

Ultrabroadband out-of-loop characterization of the carrier-envelope phase noise of an offset-free Er:fiber frequency comb

Author(s) -

Andreas Liehl,

David Fehrenbacher,

Philipp Sulzer,

Alfred Leitenstorfer,

Denis V. Seletskiy

Publication year - 2017

Publication title -

optics letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.524

H-Index - 272

eISSN - 1071-2763

pISSN - 0146-9592

DOI - 10.1364/ol.42.002050

Subject(s) - phase noise , optics , frequency comb , physics , interferometry , broadband , frequency offset , envelope (radar) , offset (computer science) , carrier envelope phase , telecommunications , computer science , orthogonal frequency division multiplexing , laser , channel (broadcasting) , radar , programming language

Recent demonstrations of passively phase-locked fiber-based combs motivate broadband characterization of the noise associated with the stabilized carrier-envelope offset frequency. In our study, we analyze the phase noise of a 100 MHz Er:fiber system in a wide range spanning from microhertz to the Nyquist frequency. An interferometric detection method enables analysis of the high-frequency output of an f-to-2f interferometer. The dominant contribution of a broadband white noise floor at high frequencies attests quantum-limited performance. An out-of-loop measurement of the carrier-envelope phase reveals its jitter to be as low as 250 mrad when integrated over 12 orders of magnitude of the radio-frequency spectrum.

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