We report recent progress made in a complete fiber-optic, high-precision, long-term stable timing distribution system for synchronization of next generation X-ray free-electron lasers. Timing jitter characterization of the master laser shows less than 170-as RMS integrated jitter for frequencies above 10 kHz, limited by the detection noise floor. Timing stabilization of a 3.5-km polarization-maintaining fiber link is successfully achieved with an RMS drift of 3.3 fs over 200 h of operation using all fiber-coupled elements. This all fiber-optic implementation will greatly reduce the complexity of optical alignment in timing distribution systems and improve the overall mechanical and timing stability of the system
Using balanced detection in both the radio frequency (RF) and the optical domain, we remotely synchr...
State-of-the-art X-ray photon science with modern freeelectronlasers (FEL) like FLASH (free-electron...
Tightly synchronized lasers and RF-systems with timing jitter in the few femtoseconds range are nece...
We report recent progress made in a complete fiber-optic, high-precision, long-term stable timing di...
We present recent progress made in optical, high-precision, long-term stable timing distribution sys...
Long-term stable timing distribution over a 3.5-km polarization maintaining (PM) fiber link using ba...
Sub-fs X-ray pulse generation in kilometre-scale FEL facilities will require sub-fs long-term timing...
Accurate timing synchronization on the femtosecond timescale is an essential installation for time-r...
Accurate timing synchronization on the femtosecond timescale is an essential installation for time-r...
The timing synchronization scheme for the European X-Ray free electron laser facility (XFEL) is base...
Tightly synchronized lasers and RF-systems with timing jitter in the few femtoseconds range are nece...
Accurate timing synchronization on the femtosecond timescale is an essential installation for time-r...
Precise timing distribution is critical for realizing a new regime of light control in next-generati...
An ultra-stable timing and synchronization system for linac-driven FELs has been designed providing ...
Next generation free electron lasers aim to generate x-ray pulses with pulse durations down to 30 fs...
Using balanced detection in both the radio frequency (RF) and the optical domain, we remotely synchr...
State-of-the-art X-ray photon science with modern freeelectronlasers (FEL) like FLASH (free-electron...
Tightly synchronized lasers and RF-systems with timing jitter in the few femtoseconds range are nece...
We report recent progress made in a complete fiber-optic, high-precision, long-term stable timing di...
We present recent progress made in optical, high-precision, long-term stable timing distribution sys...
Long-term stable timing distribution over a 3.5-km polarization maintaining (PM) fiber link using ba...
Sub-fs X-ray pulse generation in kilometre-scale FEL facilities will require sub-fs long-term timing...
Accurate timing synchronization on the femtosecond timescale is an essential installation for time-r...
Accurate timing synchronization on the femtosecond timescale is an essential installation for time-r...
The timing synchronization scheme for the European X-Ray free electron laser facility (XFEL) is base...
Tightly synchronized lasers and RF-systems with timing jitter in the few femtoseconds range are nece...
Accurate timing synchronization on the femtosecond timescale is an essential installation for time-r...
Precise timing distribution is critical for realizing a new regime of light control in next-generati...
An ultra-stable timing and synchronization system for linac-driven FELs has been designed providing ...
Next generation free electron lasers aim to generate x-ray pulses with pulse durations down to 30 fs...
Using balanced detection in both the radio frequency (RF) and the optical domain, we remotely synchr...
State-of-the-art X-ray photon science with modern freeelectronlasers (FEL) like FLASH (free-electron...
Tightly synchronized lasers and RF-systems with timing jitter in the few femtoseconds range are nece...