Add to ORKGThe present work revisits the subjects of mixing, saturation, and space-charge effects in free-electron lasers. Use is made of the compressibility factor, which proves to be a helpful tool in the related systems of charged beams confined by static magnetic fields. The compressibility allows to perform analytical estimates of the elapsed time until the onset of mixing, which in turn allows to estimate the saturated amplitude of the radiation field. In addition, the compressibility helps to pinpoint space-charge effects and the corresponding transition from Compton to Raman regimes
The Free Electron Laser (FEL) regime is investigated long after saturation using the Colson-Bonifaci...
Bunches with high peak currents of the order of kilo-Amperes are required in linac based X-ray free ...
The x-ray free-electron laser has established itself as the brightest available source of x-rays, ex...
The present work revisits the subjects of mixing, saturation, and space-charge effects in free-elect...
An exact treatment of the space-charge effect in the single-electron analysis of a free-electron las...
An exact treatment of the space-charge effect in the single-electron analysis of a free-electron las...
In the present work, we extend results of a previous paper [Peter et al., Phys. Plasmas 20, 12 3104 ...
In the present work, we extend results of a previous paper [Peter et al., Phys. Plasmas 20, 12 3104 ...
We propose a model of gain saturation in a free-electron laser, drawing a parallel with the dynamics...
We study the saturated state of an untapered free-electron laser (FEL) in the Compton regime, arisin...
We study the saturated state of an untapered free-electron laser (FEL) in the Compton regime, arisin...
We study the saturated state of an untapered free-electron laser (FEL) in the Compton regime, arisin...
Recent advances in laser-plasma accelerators, including the generation of GeV-scale electron bunches...
Free-Electron Lasers (FELs) are devices which efficiently convert the kinetic energy from a relativi...
Recent advances in laser-plasma accelerators, including the generation of GeV-scale electron bunches...
The Free Electron Laser (FEL) regime is investigated long after saturation using the Colson-Bonifaci...
Bunches with high peak currents of the order of kilo-Amperes are required in linac based X-ray free ...
The x-ray free-electron laser has established itself as the brightest available source of x-rays, ex...
The present work revisits the subjects of mixing, saturation, and space-charge effects in free-elect...
An exact treatment of the space-charge effect in the single-electron analysis of a free-electron las...
An exact treatment of the space-charge effect in the single-electron analysis of a free-electron las...
In the present work, we extend results of a previous paper [Peter et al., Phys. Plasmas 20, 12 3104 ...
In the present work, we extend results of a previous paper [Peter et al., Phys. Plasmas 20, 12 3104 ...
We propose a model of gain saturation in a free-electron laser, drawing a parallel with the dynamics...
We study the saturated state of an untapered free-electron laser (FEL) in the Compton regime, arisin...
We study the saturated state of an untapered free-electron laser (FEL) in the Compton regime, arisin...
We study the saturated state of an untapered free-electron laser (FEL) in the Compton regime, arisin...
Recent advances in laser-plasma accelerators, including the generation of GeV-scale electron bunches...
Free-Electron Lasers (FELs) are devices which efficiently convert the kinetic energy from a relativi...
Recent advances in laser-plasma accelerators, including the generation of GeV-scale electron bunches...
The Free Electron Laser (FEL) regime is investigated long after saturation using the Colson-Bonifaci...
Bunches with high peak currents of the order of kilo-Amperes are required in linac based X-ray free ...
The x-ray free-electron laser has established itself as the brightest available source of x-rays, ex...