Subfemtosecond synchronization of microwave oscillators with mode-locked Er-fiber lasers

We synchronize an 8.06 GHz microwave signal from a voltage-controlled oscillator with an optical pulse train from a 77.5 MHz mode-locked Er-fiber laser using a fiber-based optical-microwave phase detector. The residual phase noise between the optical pulse train and the synchronized microwave signal...

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Veröffentlicht in:	Optics letters 2012-07, Vol.37 (14), p.2958-2960
Hauptverfasser:	Jung, Kwangyun, Kim, Jungwon
Format:	Artikel
Sprache:	eng
Schlagworte:	Instability Lasers Microwaves Noise Optical pulses Phase stability Synchronism Trains
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container_title	Optics letters
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creator	Jung, Kwangyun Kim, Jungwon
description	We synchronize an 8.06 GHz microwave signal from a voltage-controlled oscillator with an optical pulse train from a 77.5 MHz mode-locked Er-fiber laser using a fiber-based optical-microwave phase detector. The residual phase noise between the optical pulse train and the synchronized microwave signal is -133 dBc/Hz (-154 dBc/Hz) at 1 Hz (5 kHz) offset frequency, which results in 838 as integrated rms timing jitter [1 Hz-1 MHz]. The long-term residual phase drift is 847 as (rms) measured over 2 h, which reaches 4×10(-19) fractional frequency instability at 1800 s averaging time. This method has a potential to provide both subfemtosecond-level short-term phase noise and long-term phase stability in microwave extraction from mode-locked fiber lasers.
doi_str_mv	10.1364/OL.37.002958
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subjects	Instability Lasers Microwaves Noise Optical pulses Phase stability Synchronism Trains
title	Subfemtosecond synchronization of microwave oscillators with mode-locked Er-fiber lasers
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