The recently proposed ring free electron laser (FEL) consists of several undulators with isochronous bends between them. Isochronous bends are necessary to preserve the beam bunching between undulators. Such FEL configuration may be used as an independent soft X-ray source or as a master oscillator for an X-ray FEL (high gain harmonic generator or other type). The lattice of the compact 500-MeV 60-degree bend for a soft X-ray (50 nm) FEL is proposed. Fundamental restrictions due to quantum fluctuations of synchrotron radiation and technically achievable fields to construct isochronous bends of a shorter wavelength ring FEL are discussed
Free-electron lasers (FELs) are among the world's most intense artificial artificial sources of cohe...
The next generation of large-scale free-electron lasers (FELs) such as Euro-XFEL and LCLS are to be ...
We use one-dimensional free electron laser (FEL) theory to find criteria for choosing electron beam ...
The recently proposed ring free electron laser (FEL) consists of several undulators with isochronous...
Free-electron-laser-based beamlines utilize fully coherent laser pulses with extremely narrow bandwi...
A normal-incident flattop laser with a tapered end is proposed as an optical undulator to achieve a ...
Free Electron Lasers (FEL) use free electrons in the periodic permanent magnetic field of an undulat...
Hard X-ray free-electron lasers (XFELs) generate intense coherent X-ray beams by passing electrons t...
The low-gain free-electron laser (FEL) oscillators are cutting-edge tools to produce fully coherent ...
High-gain free-electron lasers (FELs) are driven by short, high-charge density electron beams as onl...
The FEL is the result of many years of theoretical and experimental work on the generation of radiat...
Ring FELs [1] were proposed mainly to improve the quality of radiation of x-ray FELs. Their main adv...
Optical lasers cannot produce x-rays of photons and high-gain free-electron lasers (FELs) are being ...
In modern storage rings the transverse emittance of electron beams can be comparable to that from st...
We consider a single-pass free-electron laser (FEL) amplifier, driven by an rf-linac followed by a d...
Free-electron lasers (FELs) are among the world's most intense artificial artificial sources of cohe...
The next generation of large-scale free-electron lasers (FELs) such as Euro-XFEL and LCLS are to be ...
We use one-dimensional free electron laser (FEL) theory to find criteria for choosing electron beam ...
The recently proposed ring free electron laser (FEL) consists of several undulators with isochronous...
Free-electron-laser-based beamlines utilize fully coherent laser pulses with extremely narrow bandwi...
A normal-incident flattop laser with a tapered end is proposed as an optical undulator to achieve a ...
Free Electron Lasers (FEL) use free electrons in the periodic permanent magnetic field of an undulat...
Hard X-ray free-electron lasers (XFELs) generate intense coherent X-ray beams by passing electrons t...
The low-gain free-electron laser (FEL) oscillators are cutting-edge tools to produce fully coherent ...
High-gain free-electron lasers (FELs) are driven by short, high-charge density electron beams as onl...
The FEL is the result of many years of theoretical and experimental work on the generation of radiat...
Ring FELs [1] were proposed mainly to improve the quality of radiation of x-ray FELs. Their main adv...
Optical lasers cannot produce x-rays of photons and high-gain free-electron lasers (FELs) are being ...
In modern storage rings the transverse emittance of electron beams can be comparable to that from st...
We consider a single-pass free-electron laser (FEL) amplifier, driven by an rf-linac followed by a d...
Free-electron lasers (FELs) are among the world's most intense artificial artificial sources of cohe...
The next generation of large-scale free-electron lasers (FELs) such as Euro-XFEL and LCLS are to be ...
We use one-dimensional free electron laser (FEL) theory to find criteria for choosing electron beam ...
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