Add to ORKGAcceleration of ions by intense relativistic electron beams in a vacuum has been investigated using the injector of the Maryland ERA project. Proton energies above 16 MeV and proton beam currents above 10 kA have been obtained. Carbon ions have been accelerated to energies above 20 MeV using the same facility. The propagation of the beam in the acceler-ating region has been investigated, and the effects of different conducting boundaries studied. A helical slow wave structure to control the propagation of the collective acceleration field is proposed, and prelim-inary experimental considerations are presented. I
When electrons that are trapped by strong electrostatic waves are carried across a magnetic field, t...
Collective acceleration of hydrogen and helium ions by relativistic electron rings has been achieved...
Experiments on the propagation of relativistic electron beams (REB) in the ion-focus regime (IFR) ar...
The original purpose of this research was an investigation into the use of slow space charge waves o...
Progress achieved in the understanding and development of collective ion acceleration is presented. ...
A collective-field accelerator, evolving from experimental and theoretical research, uses a high-vac...
The report is devoted to the theoretical study and numerical simulation of the excitation of wake-fi...
Particle acceleration by relativistic electron plasma waves generated by intense lasers has been dem...
The High Energy Density and Exotic Acceleration working group took as our goal to reach beyond the c...
Experiments on collective ion acceleration by means of the formation of a virtual cathode have been ...
The accelerating fields in radio-frequency accelerators are limited to roughly 100 MV/m due to mater...
The macro-particle method for computer simulation of the two-beam electron-ion accelerator have been...
Particle-in-cell simulations are performed to study the acceleration of ions due to the interaction ...
International audienceA new electron acceleration mechanism is identified that develops when a relat...
The mechanism of electron acceleration by intense laser pulse interacting with an underdense plasma ...
When electrons that are trapped by strong electrostatic waves are carried across a magnetic field, t...
Collective acceleration of hydrogen and helium ions by relativistic electron rings has been achieved...
Experiments on the propagation of relativistic electron beams (REB) in the ion-focus regime (IFR) ar...
The original purpose of this research was an investigation into the use of slow space charge waves o...
Progress achieved in the understanding and development of collective ion acceleration is presented. ...
A collective-field accelerator, evolving from experimental and theoretical research, uses a high-vac...
The report is devoted to the theoretical study and numerical simulation of the excitation of wake-fi...
Particle acceleration by relativistic electron plasma waves generated by intense lasers has been dem...
The High Energy Density and Exotic Acceleration working group took as our goal to reach beyond the c...
Experiments on collective ion acceleration by means of the formation of a virtual cathode have been ...
The accelerating fields in radio-frequency accelerators are limited to roughly 100 MV/m due to mater...
The macro-particle method for computer simulation of the two-beam electron-ion accelerator have been...
Particle-in-cell simulations are performed to study the acceleration of ions due to the interaction ...
International audienceA new electron acceleration mechanism is identified that develops when a relat...
The mechanism of electron acceleration by intense laser pulse interacting with an underdense plasma ...
When electrons that are trapped by strong electrostatic waves are carried across a magnetic field, t...
Collective acceleration of hydrogen and helium ions by relativistic electron rings has been achieved...
Experiments on the propagation of relativistic electron beams (REB) in the ion-focus regime (IFR) ar...