By using two-way frequency transfer, we demonstrate ultra-high resolution
comparison of optical frequencies over a telecommunication fiber link of 100 km
operating simultaneously digital data transfer. We first propose and experiment
a bi-directional scheme using a single fiber. We show that the relative
stability at 1 s integration time is 7 10^18 and scales down to 5 10^21. The
same level of performance is reached when an optical link is implemented with
an active compensation of the fiber noise. We also implement a real-time
two-way frequency comparison over a uni-directional telecommunication network
using a pair of parallel fibers. The relative frequency stability is 10^15 at 1
s integration time and reaches 2 10^17 at 40 000 s. The fractional uncertainty
of the frequency comparisons was evaluated for the best case to 2 10^20. These
results open the way to accurate and high resolution frequency comparison of
optical clocks over intercontinental fiber networks

Amy-Klein, Anne

Bercy, Anthony

Chardonnet, Christian

Lopez, Olivier

Pottie, Paul-Eric

Stefani, Fabio

English

arXiv

By using two-way frequency transfer, we implement a real-time frequency comparison over a uni-directional telecommunication network of 100 km using a pair of parallel fibers with simultaneous digital data transfer. The relative frequency stability is 10^-15 at 1s integration time and reaches 2*10^-17 at 40000s, three orders of magnitude below the one-way fiber instability. We also demonstrate ultrahigh-resolution comparison of optical frequencies with a bidirectional scheme using a single fiber. We show that the relative stability at 1s integration time is 7*10^-18 and scales down to 5*10^-21. The same level of performance is reached when an optical link is implemented with an active compensation of the fiber noise. The fractional uncertainty of the frequency comparisons was evaluated for the best case to 2*10^-20. These results open the way to accurate and high-resolution frequency comparison of optical clocks over intercontinental fiber networks

Pottie, Paul-eric

Amy-klein, Anne

Archivio della Ricerca - Università di Pisa

Two-way optical frequency comparisons at 5*10^-21 relative stability over 100-km telecommunication network fibers

Bercy, A.

Stefani, F.

Lopez, O.

Chardonnet, C.

Pottie, P. -.E.

Amy-klein, A.

International audienceBy using two-way frequency transfer, we demonstrate ultra-high resolution comparison of optical frequencies over a telecommunication fiber link of 100 km operating simultaneously digital data transfer. We first propose and experiment a bi-directional scheme using a single fiber. We show that the relative stability at 1 s integration time is 7 10^18 and scales down to 5 10^21. The same level of performance is reached when an optical link is implemented with an active compensation of the fiber noise. We also implement a real-time two-way frequency comparison over a uni-directional telecommunication network using a pair of parallel fibers. The relative frequency stability is 10^15 at 1 s integration time and reaches 2 10^17 at 40 000 s. The fractional uncertainty of the frequency comparisons was evaluated for the best case to 2 10^20. These results open the way to accurate and high resolution frequency comparison of optical clocks over intercontinental fiber networks

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Two-Way Optical Frequency Comparisons at 5x10^-21 relative stability Over 100km Telecommunication Network Fibers

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