Add to ORKGA technique is proposed to generate electron beam with ultralow transverse emittance through laser assisted transverse-to-longitudinal emittance exchange. In the scheme a laser operating in the TEM10 mode is used to interact with the electron beam in a dispersive region and to initiate the emittance exchange. It is shown that with the proposed technique one can significantly downsize an x-ray free electron laser (FEL), which may greatly extend the availability of these light sources. A hard x-ray FEL operating at 1.5 {angstrom} with a saturation length within 30 meters using a 3.8 GeV electron beam is shown to be practically feasible
International audienceSince the laser invention, the advent of X-ray Free Electron Lasers (FEL) half...
Present-day scientific applications using x-rays from synchrotron radiation sources show very high p...
By using an intense laser pulse as an undulator, the energy requirement to generate radiations at th...
A technique is proposed to generate electron beam with ultralow transverse emittance through laser a...
Abstract A technique is proposed to generate electron beam with ultralow transverse emittance throug...
The ability to generate small transverse emittance is perhaps the main limiting factor for the perfo...
In modern storage rings the transverse emittance of electron beams can be comparable to that from st...
A scheme is proposed to exchange the transverse and longitudinal emittances of an electron bunch. A ...
Emittance exchange has been proposed to increase the performance of free electron lasers by tailorin...
The most demanding requirement for future FELs in the x-ray regime [2, 3] is the generation of a suf...
International audienceFree-electron lasers (FELs) are a unique source of light, particularly in the ...
Several methods have been proposed in the literature to improve free electron laser output by transf...
We describe a method to obtain sufficiently low energy spread laser wakefield accelerated electron b...
Compact laser-plasma accelerators can produce high energy electron beams with low emittance, high pe...
The free electron laser (FEL) is the brightest available source of x-rays, surpassing other options ...
International audienceSince the laser invention, the advent of X-ray Free Electron Lasers (FEL) half...
Present-day scientific applications using x-rays from synchrotron radiation sources show very high p...
By using an intense laser pulse as an undulator, the energy requirement to generate radiations at th...
A technique is proposed to generate electron beam with ultralow transverse emittance through laser a...
Abstract A technique is proposed to generate electron beam with ultralow transverse emittance throug...
The ability to generate small transverse emittance is perhaps the main limiting factor for the perfo...
In modern storage rings the transverse emittance of electron beams can be comparable to that from st...
A scheme is proposed to exchange the transverse and longitudinal emittances of an electron bunch. A ...
Emittance exchange has been proposed to increase the performance of free electron lasers by tailorin...
The most demanding requirement for future FELs in the x-ray regime [2, 3] is the generation of a suf...
International audienceFree-electron lasers (FELs) are a unique source of light, particularly in the ...
Several methods have been proposed in the literature to improve free electron laser output by transf...
We describe a method to obtain sufficiently low energy spread laser wakefield accelerated electron b...
Compact laser-plasma accelerators can produce high energy electron beams with low emittance, high pe...
The free electron laser (FEL) is the brightest available source of x-rays, surpassing other options ...
International audienceSince the laser invention, the advent of X-ray Free Electron Lasers (FEL) half...
Present-day scientific applications using x-rays from synchrotron radiation sources show very high p...
By using an intense laser pulse as an undulator, the energy requirement to generate radiations at th...