The pick up and acceleration of all plasma electrons irradiated by an intense, subcyclic laser pulse is demonstrated via analytical and numerical calculations. It is shown that the initial low emittance of the plasma electrons is conserved during the process of acceleration, leading to an extremely cold, bunched electron beam. Compression of the electron bunch along the longitudinal coordinate is naturally achieved due to the interaction of electrons and laser pulse. In this paper, we find the localized solutions to Maxwell's equations of a subcyclic laser pulse and use these to determine the acceleration of charged particles and we suggest future application for this acceleration mechanism as low energy particle injector and as electron so...
Over the past several years there have been significant advances in research towards generating comp...
The physics of the interaction of high-intensity laser pulses with underdense plasma depends not onl...
The physics of the interaction of high-intensity laser pulses with underdense plasma depends not onl...
The pick up and acceleration of all plasma electrons irradiated by an intense, subcyclic laser pulse...
The pick up and acceleration of all plasma electrons irradiated by an intense, subcyclic laser pulse...
Laser-plasma electron accelerators can be used to produce high-intensity x-rays, as electrons accele...
The formation of coherent structures, induced by a super-intense plane electromagnetic wave with a s...
Ultrahigh-intensity laser-plasma physics provides unique light and particle beams as well as novel p...
International audienceUsing Particle-in-Cell simulations, we study the interaction of few mJ-few cyc...
The mechanism of electron acceleration by intense laser pulse interacting with an underdense plasma ...
A novel laser-plasma-based source of relativistic electrons is described. It involves a combination ...
A new scheme for the compression of electron bunches is proposed. This scheme uses a plasma wave gen...
International audienceIn laser-plasma-based accelerators, an intense laser pulse drives a large elec...
Attosecond electron bunches and attosecond radiation pulses enable the study of ultrafast dynamics o...
International audienceLaser-plasma acceleration(1,2) is an emerging technique for accelerating elect...
Over the past several years there have been significant advances in research towards generating comp...
The physics of the interaction of high-intensity laser pulses with underdense plasma depends not onl...
The physics of the interaction of high-intensity laser pulses with underdense plasma depends not onl...
The pick up and acceleration of all plasma electrons irradiated by an intense, subcyclic laser pulse...
The pick up and acceleration of all plasma electrons irradiated by an intense, subcyclic laser pulse...
Laser-plasma electron accelerators can be used to produce high-intensity x-rays, as electrons accele...
The formation of coherent structures, induced by a super-intense plane electromagnetic wave with a s...
Ultrahigh-intensity laser-plasma physics provides unique light and particle beams as well as novel p...
International audienceUsing Particle-in-Cell simulations, we study the interaction of few mJ-few cyc...
The mechanism of electron acceleration by intense laser pulse interacting with an underdense plasma ...
A novel laser-plasma-based source of relativistic electrons is described. It involves a combination ...
A new scheme for the compression of electron bunches is proposed. This scheme uses a plasma wave gen...
International audienceIn laser-plasma-based accelerators, an intense laser pulse drives a large elec...
Attosecond electron bunches and attosecond radiation pulses enable the study of ultrafast dynamics o...
International audienceLaser-plasma acceleration(1,2) is an emerging technique for accelerating elect...
Over the past several years there have been significant advances in research towards generating comp...
The physics of the interaction of high-intensity laser pulses with underdense plasma depends not onl...
The physics of the interaction of high-intensity laser pulses with underdense plasma depends not onl...