Phase Drift Compensating RF Link for Femtosecond Synchronization of E-XFEL

Abstract: Modern high-energy particle accelerators and Free-Electron Lasers incorporate large quantities of sensitive RF and microwave frequency devices distributed over kilometer distances. Such devices require extreme stable phase and time synchronization by means of high frequency signal distributed along the accelerator facility.Coaxial cables are commonly used to distribute the reference signal over the large machine to synchronize electronic systems and they are the main source of undesirable phase drifts in the s… Show more

“…Additionally, OTS is less prone to EMI on the clock reference and demonstrates lower sensitivity to environmental conditions. While drift compensation of large networks is outside the scope of this work, the phase drift of fibers can be further reduced either by feedback [37], [51]- [53] or material/structure engineering [46], [54].…”

Optically Synchronized Phased Arrays in CMOS

“…Additionally, OTS is less prone to EMI on the clock reference and demonstrates lower sensitivity to environmental conditions. While drift compensation of large networks is outside the scope of this work, the phase drift of fibers can be further reduced either by feedback [37], [51]- [53] or material/structure engineering [46], [54].…”

Optically Synchronized Phased Arrays in CMOS

Timing and Synchronization

A Novel Technique for Real-Time Estimation and Compensation of Phase-Drift of RF Signals Transmitting Through Coaxial Cables