We present a timing synchronization system that can synchronize optical and microwave signals with attosecond-level precision across kilometer distances. With this technique, the next-generation photon science facilities like X-ray free-electron lasers and intense laser beamlines can be enabled to observe ultrafast dynamics in atoms, molecules and condensed matter taking place on an attosecond time scale. We discuss some key technologies including master-laser jitter characterization, local one-color laser synchronization, remote two-color laser synchronization, and analyze technical noise contributions in the system. A 4.7-km laser-microwave network with 950-attosecond timing jitter is realized over tens of hours of continuous operation. F...
New generation light sources such as X-ray free-electron lasers* and attoscience centers** require h...
In femtosecond pump/probe experiments using short X-Ray and optical pulses, precise synchronization ...
In femtosecond pump/probe experiments using short X-Ray and optical pulses, precise synchronization...
We present a timing synchronization system that can synchronize optical and microwave signals with a...
To observe electronic dynamics in atoms, molecules, and condensed matter taking place on an attoseco...
Photon-science facilities such as X-ray free-electron lasers (XFELs) and intense-laser facilities ar...
Synchronous laser-microwave networks delivering attosecond timing precision are highly desirable in ...
Low-noise transfer of time and frequency standards over large distances provides high temporal resol...
Next-generation photon-science facilities such as X-ray free-electron lasers and intense-laser beaml...
We demonstrate sub-femtosecond synchronization of ultrashort pulse lasers and RF-sources over km dis...
A novel 4.7-km laser-microwave network continuously operating with attosecond precision over more th...
Precise timing distribution is critical for realizing a new regime of light control in next-generati...
The precise timing and synchronization system is an essential part for the ultra-fast electron and X...
Tightly synchronized lasers and RF-systems with timing jitter in the few femtoseconds range are nece...
Fourth-generation Light sources such as the European X-Ray free electron laser facility (XFEL), the ...
New generation light sources such as X-ray free-electron lasers* and attoscience centers** require h...
In femtosecond pump/probe experiments using short X-Ray and optical pulses, precise synchronization ...
In femtosecond pump/probe experiments using short X-Ray and optical pulses, precise synchronization...
We present a timing synchronization system that can synchronize optical and microwave signals with a...
To observe electronic dynamics in atoms, molecules, and condensed matter taking place on an attoseco...
Photon-science facilities such as X-ray free-electron lasers (XFELs) and intense-laser facilities ar...
Synchronous laser-microwave networks delivering attosecond timing precision are highly desirable in ...
Low-noise transfer of time and frequency standards over large distances provides high temporal resol...
Next-generation photon-science facilities such as X-ray free-electron lasers and intense-laser beaml...
We demonstrate sub-femtosecond synchronization of ultrashort pulse lasers and RF-sources over km dis...
A novel 4.7-km laser-microwave network continuously operating with attosecond precision over more th...
Precise timing distribution is critical for realizing a new regime of light control in next-generati...
The precise timing and synchronization system is an essential part for the ultra-fast electron and X...
Tightly synchronized lasers and RF-systems with timing jitter in the few femtoseconds range are nece...
Fourth-generation Light sources such as the European X-Ray free electron laser facility (XFEL), the ...
New generation light sources such as X-ray free-electron lasers* and attoscience centers** require h...
In femtosecond pump/probe experiments using short X-Ray and optical pulses, precise synchronization ...
In femtosecond pump/probe experiments using short X-Ray and optical pulses, precise synchronization...