International audienceIn laser-plasma-based accelerators, an intense laser pulse drives a large electric field (the wakefield) which accelerates particles to high energies in distances much shorter than in conventional accelerators. These high acceleration gradients, of a few hundreds of gigavolts per metre, hold the promise of compact high-energy particle accelerators. Recently, several experiments have shown that laser-plasma accelerators can produce high-quality electron beams, with quasi-monoenergetic energy distributions at the 100 MeV level. However, these beams do not have the stability and reproducibility that are required for applications. This is because the mechanism responsible for injecting electrons into the wakefield is based...
We report results of an experimental study of laser-wakefield acceleration of electrons, using a sta...
AbstractWe report results of an experimental study of laser-wakefield acceleration of electrons, usi...
This thesis reports on laser wakefield acceleration, a radically new approach for particle accelerat...
International audienceIn laser-plasma-based accelerators, an intense laser pulse drives a large elec...
International audienceA few years ago, several experiments showed that laser-plasma accelerators can...
AbstractTo improve the stability and reproducibility of laser wakefield accelerators and to allow fo...
To improve the stability and reproducibility of laser wakefield accelerators and to allow for future...
International audienceIn this paper, we report on recent experimental results on electron accelerati...
Experimental studies of laser-driven acceleration of charged particles, in particular electrons and ...
This thesis describes experimental studies that aim to stabilise and optimise laser-based particle a...
Plasma based accelerators are capable of producing electron sources which are ultra-compact (a few m...
Plasma based accelerators are capable of producing electron sources which are ultra-compact (a few ...
A laser driven wakefield accelerator has been tuned to produce high energy electron bunches with lo...
Laser-driven plasma wakefields are structures that can sustain large electric fields and offer a pro...
We report results of an experimental study of laser-wakefield acceleration of electrons, using a sta...
AbstractWe report results of an experimental study of laser-wakefield acceleration of electrons, usi...
This thesis reports on laser wakefield acceleration, a radically new approach for particle accelerat...
International audienceIn laser-plasma-based accelerators, an intense laser pulse drives a large elec...
International audienceA few years ago, several experiments showed that laser-plasma accelerators can...
AbstractTo improve the stability and reproducibility of laser wakefield accelerators and to allow fo...
To improve the stability and reproducibility of laser wakefield accelerators and to allow for future...
International audienceIn this paper, we report on recent experimental results on electron accelerati...
Experimental studies of laser-driven acceleration of charged particles, in particular electrons and ...
This thesis describes experimental studies that aim to stabilise and optimise laser-based particle a...
Plasma based accelerators are capable of producing electron sources which are ultra-compact (a few m...
Plasma based accelerators are capable of producing electron sources which are ultra-compact (a few ...
A laser driven wakefield accelerator has been tuned to produce high energy electron bunches with lo...
Laser-driven plasma wakefields are structures that can sustain large electric fields and offer a pro...
We report results of an experimental study of laser-wakefield acceleration of electrons, using a sta...
AbstractWe report results of an experimental study of laser-wakefield acceleration of electrons, usi...
This thesis reports on laser wakefield acceleration, a radically new approach for particle accelerat...