Characterization of timing jitter in a 5 GHz quantum dot passively mode-locked laser | Zendy

Chang-Yi Lin | Zendy; Frédéric Grillot | Zendy; Yan Li | Zendy; R. Raghunathan | Zendy; L. F. Lester | Zendy

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Characterization of timing jitter in a 5 GHz quantum dot passively mode-locked laser

Author(s) -

Chang-Yi Lin,

Frédéric Grillot,

Yan Li,

R. Raghunathan,

L. F. Lester

Publication year - 2010

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.18.021932

Subject(s) - jitter , phase noise , laser linewidth , sideband , optics , physics , harmonics , noise (video) , laser , microwave , telecommunications , computer science , voltage , quantum mechanics , artificial intelligence , image (mathematics)

The timing jitter performance of a 5 GHz quantum dot passively mode-locked laser is investigated at different harmonics in the RF spectrum. The necessity of measuring the phase noise at relatively large harmonic numbers is motivated experimentally in the context of determining the corner frequency, its correlation to the RF linewidth, and the related white noise plateau level. The single-sideband phase noise with an integrated timing jitter of 211 fs (4-80 MHz) is reported. An all-microwave technique has been used to determine a pulse-to-pulse rms timing jitter of 96 fs/cycle. This low timing jitter value makes the chip-scale quantum dot mode-locked laser an attractive source for low noise applications such as optical clocking and sampling.

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