In present FEL designs, the undulators are often opti-mised for an electron bunch with properties constant along the length of the bunch. The mean energy, emittance and other parameters are assumed not to vary from slice to slice. This paper investigates the impact of more realistic bunch properties, extracted from start-to-end simulations of the BESSY FEL [1]. The energy chirp needed for the bunch compression, and the impact of the passed structure im-print typical parameter profiles on the bunch at the end of the linac. Especially in high gain harmonic generation (HGHG) structures, that use consecutive parts of a long electron bunch, each stage must be adjusted to the expected bunch parameters. Due to this individual adjustment, syn-chron...
BESSY proposes a linac-based High-Gain Harmonic-Generation (HGHG) free electron laser (FEL) facility...
The effects of assumptions about bunch properties on the accuracy of the measurement method of the b...
The gain length of the free-electron laser (FEL) process strongly depends on the slice energy spread...
A single-pass high-gain x-ray free electron laser (FEL) calls for a high quality electron bunch. In ...
Electron beam quality is an important factor in the performance of a free electron laser (FEL). Para...
High power, short pulse length and full coherence are the main parameters of the second generation f...
in a harmonic generation free electron laser (HG FEL), the electron bunch entering the undulator can...
One scheme for harmonic generation employs free electron lasers (FELs) with two undulators: the firs...
Currently, the Free electron laser user facility FLASH at DESY is undergoing a significant upgrade i...
The dynamics of electron beams involved in Free Electron Lasers (FELs) projects is an interplay betw...
One scheme for harmonic generation employs free electron lasers (FELs) with two undulators: the firs...
One scheme for harmonic generation employs free electron lasers (FELs) with two undulators: the fir...
For single-pass free-electron lasers (FEL), such as amplifiers and SASE devices, saturation of the r...
High-gain free-electron lasers (FELs) generate ultra-short photon pulses with unparalleled intensiti...
A magnetic bunch compressor was designed and commissioned to provide higher peak current for the Adv...
BESSY proposes a linac-based High-Gain Harmonic-Generation (HGHG) free electron laser (FEL) facility...
The effects of assumptions about bunch properties on the accuracy of the measurement method of the b...
The gain length of the free-electron laser (FEL) process strongly depends on the slice energy spread...
A single-pass high-gain x-ray free electron laser (FEL) calls for a high quality electron bunch. In ...
Electron beam quality is an important factor in the performance of a free electron laser (FEL). Para...
High power, short pulse length and full coherence are the main parameters of the second generation f...
in a harmonic generation free electron laser (HG FEL), the electron bunch entering the undulator can...
One scheme for harmonic generation employs free electron lasers (FELs) with two undulators: the firs...
Currently, the Free electron laser user facility FLASH at DESY is undergoing a significant upgrade i...
The dynamics of electron beams involved in Free Electron Lasers (FELs) projects is an interplay betw...
One scheme for harmonic generation employs free electron lasers (FELs) with two undulators: the firs...
One scheme for harmonic generation employs free electron lasers (FELs) with two undulators: the fir...
For single-pass free-electron lasers (FEL), such as amplifiers and SASE devices, saturation of the r...
High-gain free-electron lasers (FELs) generate ultra-short photon pulses with unparalleled intensiti...
A magnetic bunch compressor was designed and commissioned to provide higher peak current for the Adv...
BESSY proposes a linac-based High-Gain Harmonic-Generation (HGHG) free electron laser (FEL) facility...
The effects of assumptions about bunch properties on the accuracy of the measurement method of the b...
The gain length of the free-electron laser (FEL) process strongly depends on the slice energy spread...