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laserDevice
The current Laser Electron Acceleration Program (LEAP) seeks to modulate the energy of an electron bunch by interaction of the electrons with a copropagating pair of crossed laser beams at 800 nm. We present an optical injector design for a LEAP cell so that it can be used to give net energy gain to an electron bunch. Unique features of the design are discussed which will allow this net energy gain and which will also provide a robust signature for the LEAP interaction
In this paper, three-dimensional particle simulation results show a generation of high-energy micro-...
International audienceThe recent and continuous development of powerful laser systems has permitted ...
International audienceIn laser-plasma-based accelerators, an intense laser pulse drives a large elec...
Abstract. The current Laser Electron Acceleration Program (LEAP) seeks to modulate the energy of an ...
[[abstract]]A major goal of the Laser Electron Accelerator Project (LEAP) is to perform an experimen...
The Laser Electron Acceleration Project (LEAP) group has been conducting a proof of principle experi...
Using 3D test particle simulations, the characteristics and essential conditions under which an elec...
Our objective is to demonstrate, via a proof-of-principle experiment, particle acceleration by cross...
Laser-powered acceleration of charged particles promises extraordinary acceleration gradients due to...
The interaction of free electrons with intense laser beams in vacuum is studied using a 3D test par...
The production of GeV electron beam with narrow energy spread and high brightness is investigated us...
We propose a direct electron acceleration scheme that uses a two-color pulsed radially-polarized las...
The dynamics of electron acceleration driven by laser wakefield is studied in detail using the parti...
In recent years, laser plasma acceleration (LPA) has become a promising alternative to conventional ...
Laser wake field acceleration (LWFA) is an efficient method to accelerate electron beams to high ene...
In this paper, three-dimensional particle simulation results show a generation of high-energy micro-...
International audienceThe recent and continuous development of powerful laser systems has permitted ...
International audienceIn laser-plasma-based accelerators, an intense laser pulse drives a large elec...
Abstract. The current Laser Electron Acceleration Program (LEAP) seeks to modulate the energy of an ...
[[abstract]]A major goal of the Laser Electron Accelerator Project (LEAP) is to perform an experimen...
The Laser Electron Acceleration Project (LEAP) group has been conducting a proof of principle experi...
Using 3D test particle simulations, the characteristics and essential conditions under which an elec...
Our objective is to demonstrate, via a proof-of-principle experiment, particle acceleration by cross...
Laser-powered acceleration of charged particles promises extraordinary acceleration gradients due to...
The interaction of free electrons with intense laser beams in vacuum is studied using a 3D test par...
The production of GeV electron beam with narrow energy spread and high brightness is investigated us...
We propose a direct electron acceleration scheme that uses a two-color pulsed radially-polarized las...
The dynamics of electron acceleration driven by laser wakefield is studied in detail using the parti...
In recent years, laser plasma acceleration (LPA) has become a promising alternative to conventional ...
Laser wake field acceleration (LWFA) is an efficient method to accelerate electron beams to high ene...
In this paper, three-dimensional particle simulation results show a generation of high-energy micro-...
International audienceThe recent and continuous development of powerful laser systems has permitted ...
International audienceIn laser-plasma-based accelerators, an intense laser pulse drives a large elec...
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