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Dual-comb-enhanced microwave clock synchronization over commercial fiber

Ziyang Chen, Dongrui Yu, Ganbin Lu, Yufei Zhang, Song Yu, Bin Luo, Hong Guo

2024Optica19 citationsDOIOpen Access PDF

Abstract

The large-scale clock network is the key ingredient to obtain high precision in many scenarios, from fundamental research to cutting-edge applications. The advantage of the time synchronization among microwave clocks is their cost, size, and accessibility. Here, we demonstrate a femtosecond-level time synchronization of microwave clocks through a commercial link of 205.86 km via dual-comb-enhanced optical two-way time transfer, which achieves a 6.23-fs residual time deviation between synchronized timescales at 1 s and an instability below 6×10 −18 at 10,000 s. Further, the high-precision time synchronization of microwave clocks significantly enhances the probe ability of subtle reciprocity changes of fiber to the sub-picosecond level. This work provides a path toward secure fiber time-frequency networks to support future microwave-clock-based precise timing and sensing systems.

Topics & Concepts

Time transferMicrowaveSynchronization (alternating current)Computer scienceClock synchronizationAtomic clockFemtosecondPicosecondElectronic engineeringSignal edgeLaserOpticsPhysicsTelecommunicationsEngineeringTransmission (telecommunications)Global Positioning SystemAnalog signalChannel (broadcasting)Advanced Frequency and Time StandardsAdvanced Fiber Laser TechnologiesQuantum optics and atomic interactions
Dual-comb-enhanced microwave clock synchronization over commercial fiber | Litcius