Add to ORKGIn this paper, we present results on a scalable high-energy electron source based on laser wakefield acceleration. The electron accelerator using 30–80 TW, 30 fs laser pulses, operates in the blowout regime, and produces high-quality, quasi-monoenergetic electron beams in the range 100–800 MeV. These beams have angular divergence of 1–4 mrad, and 5%–25% energy spread, with a resulting brightness 1011 electrons mm-2 MeV-1 mrad-2. The beam parameters can be tuned by varying the laser and plasma conditions. The use of a high-quality laser pulse and appropriate target conditions enables optimization of beam quality, concentrating a significant fraction of the accelerated charge into the quasi-monoenergetic component
Laser-driven, quasimonoenergetic electron beams of up to ~200 MeV in energy have been observed from ...
Very stable, high quality electron beams (current similar to 10 kA, energy spread < 1%, emittance si...
International audiencePlasma-based accelerators have been proposed for the next generation of compac...
In this paper, we present results on a scalable high-energy electron source based on laser wakefield...
International audienceUsing a laser plasma accelerator, experiments with a 80 TW and 30 fs laser pul...
We globally optimize a terawatt-laser-driven wakefield accelerator by systematically varying laser a...
Stable 200–400-MeV quasi-monoenergetic electron bunches (ΔE/Eno dark-currentare produced when a self...
International audienceWe report on an experimental demonstration of laser wakefield electron acceler...
Stable operation of a laser-plasma accelerator near the threshold for electron self-injection in the...
AbstractWe report results of an experimental study of laser-wakefield acceleration of electrons, usi...
International audienceIn laser-plasma-based accelerators, an intense laser pulse drives a large elec...
Laser-driven, quasimonoenergetic electron beams of up to ~200 MeV in energy have been observed from ...
Very stable, high quality electron beams (current similar to 10 kA, energy spread < 1%, emittance si...
International audiencePlasma-based accelerators have been proposed for the next generation of compac...
In this paper, we present results on a scalable high-energy electron source based on laser wakefield...
International audienceUsing a laser plasma accelerator, experiments with a 80 TW and 30 fs laser pul...
We globally optimize a terawatt-laser-driven wakefield accelerator by systematically varying laser a...
Stable 200–400-MeV quasi-monoenergetic electron bunches (ΔE/Eno dark-currentare produced when a self...
International audienceWe report on an experimental demonstration of laser wakefield electron acceler...
Stable operation of a laser-plasma accelerator near the threshold for electron self-injection in the...
AbstractWe report results of an experimental study of laser-wakefield acceleration of electrons, usi...
International audienceIn laser-plasma-based accelerators, an intense laser pulse drives a large elec...
Laser-driven, quasimonoenergetic electron beams of up to ~200 MeV in energy have been observed from ...
Very stable, high quality electron beams (current similar to 10 kA, energy spread < 1%, emittance si...
International audiencePlasma-based accelerators have been proposed for the next generation of compac...