Add to ORKGControl of the properties of laser-plasma-accelerated electron beams that were injected along a shock-induced density downramp through precision tailoring of the density profile was demonstrated using a 1.8 J, 45 fs laser interacting with a mm-scale gas jet. The effects on the beam spatial profile, steering, and absolute energy spread of the density region before the shock and tilt of the shock were investigated experimentally and with particle-in-cell simulations. By adjusting these density parameters, the electron beam quality was controlled and improved while the energy (30-180 MeV) and energy spread (2-11 MeV) were independently tuned. Simple models that are in good agreement with the experimental results are proposed to explain these r...
We report results of an experimental study of laser-wakefield acceleration of electrons, using a sta...
We present the experimental demonstration of density downramp injection at a gas-dynamic shock in a ...
International audienceTo take full advantage of a laser-plasma accelerator, stability and control of...
Control of the properties of laser-plasma-accelerated electron beams that were injected along a shoc...
The injection physics in a shock-induced density down-ramp injector was characterized, demonstrating...
We report on a study on controlled injection of electrons into the accelerating phase of a plasma wa...
The dynamics of electron acceleration driven by laser wakefield is studied in detail using the parti...
We demonstrate a laser wakefield accelerator with a novel electron injection scheme resulting in enh...
Injection of well-defined, high-quality electron populations into plasma waves is a key challenge of...
International audienceExperimental results, supported by precise modeling, demonstrate optimization ...
International audienceA density perturbation produced in an underdense plasma was used to improve th...
The properties of electron beams obtainable from plasma wakefield accelerators are largely determine...
International audienceDensity transition (or shock-front) injection is a technique to obtain high qu...
We report results of an experimental study of laser-wakefield acceleration of electrons, using a sta...
We present the experimental demonstration of density downramp injection at a gas-dynamic shock in a ...
International audienceTo take full advantage of a laser-plasma accelerator, stability and control of...
Control of the properties of laser-plasma-accelerated electron beams that were injected along a shoc...
The injection physics in a shock-induced density down-ramp injector was characterized, demonstrating...
We report on a study on controlled injection of electrons into the accelerating phase of a plasma wa...
The dynamics of electron acceleration driven by laser wakefield is studied in detail using the parti...
We demonstrate a laser wakefield accelerator with a novel electron injection scheme resulting in enh...
Injection of well-defined, high-quality electron populations into plasma waves is a key challenge of...
International audienceExperimental results, supported by precise modeling, demonstrate optimization ...
International audienceA density perturbation produced in an underdense plasma was used to improve th...
The properties of electron beams obtainable from plasma wakefield accelerators are largely determine...
International audienceDensity transition (or shock-front) injection is a technique to obtain high qu...
We report results of an experimental study of laser-wakefield acceleration of electrons, using a sta...
We present the experimental demonstration of density downramp injection at a gas-dynamic shock in a ...
International audienceTo take full advantage of a laser-plasma accelerator, stability and control of...