Add to ORKGElectron acceleration in a tightly focused ultra-intensity linear polarized laser beam is investigated numerically. It has been found that the acceleration is strong phase dependent and is periodic to the variety of the initial laser field phase. When optimal initial parameters are chosen, the electron can be accelerated effectively. The accelerated electrons are emitted in pulses of which the full width is less than the half period of the laser field
Encouraged by recent advances in radially-polarized laser technology, simulations have been performe...
As we know, for a significant electron energy gain, a fast electron should be injected into the high...
The effect of laser polarization on the laser wakefield acceleration (LWFA) of electrons has been in...
The acceleration of electrons by a radially polarized intense laser pulse has been studied. The axia...
Salamin YI, Keitel CH, Faisal F. Electron acceleration in combined laser and uniform electric fields...
Exact closed-form solutions to Maxwell’s equations are used to investigate electron acceleration dri...
We examine the electron acceleration by tightly focused radially polarized laser beam in a preformed...
Abstract: We demonstrate through numerical modeling that electrons can be accelerated in a single pl...
The dependence of angular distributions of fast electrons generated in the interaction of p-polarize...
Tightly-focused, ultrashort radially-polarized laser beams have a large longitudinal field, which pr...
International audienceTightly focused, ultrashort radially polarized laser beams have a large longit...
International audienceTightly focused, ultrashort radially polarized laser beams have a large longit...
International audienceTightly focused, ultrashort radially polarized laser beams have a large longit...
The paper presents a scheme of vacuum electron acceleration due to tightly focused linearly polarize...
We present a relativistic single particle simulation of vacuum acceleration of an electron by a high...
Encouraged by recent advances in radially-polarized laser technology, simulations have been performe...
As we know, for a significant electron energy gain, a fast electron should be injected into the high...
The effect of laser polarization on the laser wakefield acceleration (LWFA) of electrons has been in...
The acceleration of electrons by a radially polarized intense laser pulse has been studied. The axia...
Salamin YI, Keitel CH, Faisal F. Electron acceleration in combined laser and uniform electric fields...
Exact closed-form solutions to Maxwell’s equations are used to investigate electron acceleration dri...
We examine the electron acceleration by tightly focused radially polarized laser beam in a preformed...
Abstract: We demonstrate through numerical modeling that electrons can be accelerated in a single pl...
The dependence of angular distributions of fast electrons generated in the interaction of p-polarize...
Tightly-focused, ultrashort radially-polarized laser beams have a large longitudinal field, which pr...
International audienceTightly focused, ultrashort radially polarized laser beams have a large longit...
International audienceTightly focused, ultrashort radially polarized laser beams have a large longit...
International audienceTightly focused, ultrashort radially polarized laser beams have a large longit...
The paper presents a scheme of vacuum electron acceleration due to tightly focused linearly polarize...
We present a relativistic single particle simulation of vacuum acceleration of an electron by a high...
Encouraged by recent advances in radially-polarized laser technology, simulations have been performe...
As we know, for a significant electron energy gain, a fast electron should be injected into the high...
The effect of laser polarization on the laser wakefield acceleration (LWFA) of electrons has been in...