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Literature DB >> 21326439

High-resolution microwave frequency transfer over an 86-km-long optical fiber network using a mode-locked laser.

Giuseppe Marra¹, Radan Slavík, Helen S Margolis, Stephen N Lea, Periklis Petropoulos, David J Richardson, Patrick Gill.

Abstract

We demonstrate the transfer of an ultrastable microwave frequency by transmitting a 30-nm-wide optical frequency comb from a mode-locked laser over 86 km of installed optical fiber. The pulse train is returned to the transmitter via the same fiber for compensation of environmentally induced optical path length changes. The fractional transfer stability measured at the remote end reaches 4×10(-17) after 1600 s, corresponding to a timing jitter of 64 fs.

Year: 2011 PMID： 21326439 DOI： 10.1364/OL.36.000511

Source DB: PubMed Journal: Opt Lett ISSN： 0146-9592 Impact factor: 3.776

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Cited

5 in total

1. Simultaneously precise frequency transfer and time synchronization using feed-forward compensation technique via 120 km fiber link.

Authors: Xing Chen; Jinlong Lu; Yifan Cui; Jian Zhang; Xing Lu; Xusheng Tian; Cheng Ci; Bo Liu; Hong Wu; Tingsong Tang; Kebin Shi; Zhigang Zhang
Journal: Sci Rep Date: 2015-12-22 Impact factor: 4.379

2. A VLBI experiment using a remote atomic clock via a coherent fibre link.

Authors: Cecilia Clivati; Roberto Ambrosini; Thomas Artz; Alessandra Bertarini; Claudio Bortolotti; Matteo Frittelli; Filippo Levi; Alberto Mura; Giuseppe Maccaferri; Mauro Nanni; Monia Negusini; Federico Perini; Mauro Roma; Matteo Stagni; Massimo Zucco; Davide Calonico
Journal: Sci Rep Date: 2017-02-01 Impact factor: 4.379

High-resolution microwave frequency transfer over an 86-km-long optical fiber network using a mode-locked laser.

1. Simultaneously precise frequency transfer and time synchronization using feed-forward compensation technique via 120 km fiber link.

2. A VLBI experiment using a remote atomic clock via a coherent fibre link.

3. Square Kilometre Array Telescope--Precision Reference Frequency Synchronisation via 1f-2f Dissemination.

4. High-precision distribution of highly stable optical pulse trains with 8.8 × 10⁻¹⁹ instability.

5. Demonstration of quantum synchronization based on second-order quantum coherence of entangled photons.