A self-consistent theory of plasma response to a single laser beam is proposed. The driving pump is not viewed as invariant during its interaction with the plasmas. Its modulation by the plasmas has an obvious influence on the strength of the wakefield behind the pulse. This suggests that the compression of the low-intensity pulse by the plasmas might be a possible way to excite largae-amplitude wakefield. (C) 2003 American Institute of Physics
Laser-driven plasma-based accelerators, which are capable of supporting fields in excess of 100 GV/m...
A comparison is made between the interaction of electron bunches and intense laser pulses with plasm...
The modulational instability that occurs during the interaction of a long laser pulse and its own wa...
A self-consistent theory of plasma response to a single laser beam is proposed. The driving pump is ...
The generation of wakefields in near-critical density plasma by a short laser pulse is considered. T...
he wakefield generated in a plasma by incoherently combining a large number of low energy laser puls...
A laser pulse traveling through a plasma can excite large amplitude plasma waves that can be used to...
The self-modulational instability of a relatively long laser pulse with a power close to or less tha...
International audienceThe interaction of intense laser pulses (power>30 TW) with underdense plasmas ...
In the present analysis we study the time dependent, self-consistent propagation of nonlinear electr...
As lasers become progressively higher in power, optical damage thresholds will become a limiting fac...
Asymmetric self-phase modulation (SPM) of an intense laser pulse propagating in a plasma is analyzed...
The effects of plasma density and laser energy on the stability of laser produced monoenergetic elec...
A new approach to laser-wakefield acceleration (LWFA) has been analyzed. A seed electron beam bunch ...
The physics of plasma-based accelerators driven by short-pulse lasers is reviewed. This includes the...
Laser-driven plasma-based accelerators, which are capable of supporting fields in excess of 100 GV/m...
A comparison is made between the interaction of electron bunches and intense laser pulses with plasm...
The modulational instability that occurs during the interaction of a long laser pulse and its own wa...
A self-consistent theory of plasma response to a single laser beam is proposed. The driving pump is ...
The generation of wakefields in near-critical density plasma by a short laser pulse is considered. T...
he wakefield generated in a plasma by incoherently combining a large number of low energy laser puls...
A laser pulse traveling through a plasma can excite large amplitude plasma waves that can be used to...
The self-modulational instability of a relatively long laser pulse with a power close to or less tha...
International audienceThe interaction of intense laser pulses (power>30 TW) with underdense plasmas ...
In the present analysis we study the time dependent, self-consistent propagation of nonlinear electr...
As lasers become progressively higher in power, optical damage thresholds will become a limiting fac...
Asymmetric self-phase modulation (SPM) of an intense laser pulse propagating in a plasma is analyzed...
The effects of plasma density and laser energy on the stability of laser produced monoenergetic elec...
A new approach to laser-wakefield acceleration (LWFA) has been analyzed. A seed electron beam bunch ...
The physics of plasma-based accelerators driven by short-pulse lasers is reviewed. This includes the...
Laser-driven plasma-based accelerators, which are capable of supporting fields in excess of 100 GV/m...
A comparison is made between the interaction of electron bunches and intense laser pulses with plasm...
The modulational instability that occurs during the interaction of a long laser pulse and its own wa...
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