Add to ORKGThe continuous wave electron accelerator ELBE is upgraded to generate short and highly charged electron bunches (~200fs duration, up to 1 nC) . In the last years a prototype of an optical synchronization system using a mode locked fiber laser has been build up at ELBE which is now in commissioning phase. The stabilized pulse train can be used for new methods of electron bunch diagnostics like bunch arrival time measurements with the potential of femtosecond resolution. At ELBE a bunch arrival time monitor (BAM) has been designed and tested at the accelerator. The contribution will show the design of the BAM and first measurement results at the ELBE accelerator
Numerous advanced applications of X-ray free-electron lasers require pulse durations and time resolu...
The first facility-wide evaluation of the optical synchronization system at the European XFEL result...
The test free-electron laser (test-FEL) at MAX-lab in Lund demonstrated for the first time circularl...
Numerous advanced applications of X-ray free-electron lasers require pulse durations and time resolu...
At today's free-electron lasers, high-resolution electron bunch arrival time measurements have becom...
At today's free-electron lasers, high-resolution electron bunch arrival time measurements have becom...
Abstract Bunch arrival time monitors installed in several locations at FLASH measure the arrival tim...
At FLASH, an optical synchronisation system with fem-tosecond stability is now being installed and c...
Optical synchronization systems, based on mode-locked erbium-doped fiber lasers whose pulses are dis...
Within the ELBE upgrade towards a Center for High Power Radiation Sources (HSQ), a mono energetic po...
In modern free electron laser facilities like FLASH and European XFEL a high resolution intra train ...
At today's free-electron lasers, high-resolution electron bunch arrival time measurements have becom...
At today's free-electron lasers, high-resolution electron bunch arrival time measurements have becom...
The production of ultra-short photon pulses for UV, VUV or X-ray Free-Electron Lasers demands new te...
Electro-optical detection has proven to be a valuable technique to study temporal profiles of THz pu...
Numerous advanced applications of X-ray free-electron lasers require pulse durations and time resolu...
The first facility-wide evaluation of the optical synchronization system at the European XFEL result...
The test free-electron laser (test-FEL) at MAX-lab in Lund demonstrated for the first time circularl...
Numerous advanced applications of X-ray free-electron lasers require pulse durations and time resolu...
At today's free-electron lasers, high-resolution electron bunch arrival time measurements have becom...
At today's free-electron lasers, high-resolution electron bunch arrival time measurements have becom...
Abstract Bunch arrival time monitors installed in several locations at FLASH measure the arrival tim...
At FLASH, an optical synchronisation system with fem-tosecond stability is now being installed and c...
Optical synchronization systems, based on mode-locked erbium-doped fiber lasers whose pulses are dis...
Within the ELBE upgrade towards a Center for High Power Radiation Sources (HSQ), a mono energetic po...
In modern free electron laser facilities like FLASH and European XFEL a high resolution intra train ...
At today's free-electron lasers, high-resolution electron bunch arrival time measurements have becom...
At today's free-electron lasers, high-resolution electron bunch arrival time measurements have becom...
The production of ultra-short photon pulses for UV, VUV or X-ray Free-Electron Lasers demands new te...
Electro-optical detection has proven to be a valuable technique to study temporal profiles of THz pu...
Numerous advanced applications of X-ray free-electron lasers require pulse durations and time resolu...
The first facility-wide evaluation of the optical synchronization system at the European XFEL result...
The test free-electron laser (test-FEL) at MAX-lab in Lund demonstrated for the first time circularl...