Add to ORKGIn the Plasma Beat Wave Accelerator, acceleration is achieved by a longitudinal electrostatic field produced as a result of charge separation generated by a plasma wave traveling close to the speed of light. The plasma wave in turn is produced by two colinear laser pulses whose amplitude is modulated so that the beat frequency matches the plasma frequency. Optical mixing and Raman forward scattering instability play a crucial role in the growth and non-linear saturation of such high phase velocity plasma waves. In this paper we describe experiments that show, i) that long wave-length high phase velocity electron plasma waves can be generated in a homogeneous plasma by optical mixing and ii) relativistic particles are indeed generated by the...
Experimental evidence for the acceleration of electrons in a relativistic plasma wave generated by R...
Beatwave excitation of plasma waves is analyzed in the regime where relativistic corrections to the ...
Experimental evidence for the acceleration of electrons in a relativistic plasma wave generated by R...
International audienceELECTRONS in a plasma undergo collective wave-like oscillations near the plasm...
International audienceA short-pulse laser beat wave scheme for advanced particle accelerator applica...
We propose a new approach to high-intensity relativistic laser-driven electron acceleration in a pla...
Abstract—High-intensity laser–plasma interaction experiments were performed using high-power laser p...
Studies of charged-particle acceleration processes remain one of the most important areas of researc...
Stimulated Raman forward scattering in a high‐temperature, magnetized plasma is investigated with re...
The coexistence of stimulated Raman forward and backward scattering of intense electromagnetic radia...
The high-gradient electron acceleration schemes that have been demonstrated using LWFA appear promis...
International audienceStimulated Raman forward scattering in a high‐temperature, magnetized plasma i...
Particle acceleration by relativistic electron plasma waves generated by intense lasers has been dem...
In this paper we describe the recent work at UCLA on the acceleration of externally injected electro...
The physics of the beat-excited, relativis-tic electron plasma wave, a candidate for a laser particl...
Experimental evidence for the acceleration of electrons in a relativistic plasma wave generated by R...
Beatwave excitation of plasma waves is analyzed in the regime where relativistic corrections to the ...
Experimental evidence for the acceleration of electrons in a relativistic plasma wave generated by R...
International audienceELECTRONS in a plasma undergo collective wave-like oscillations near the plasm...
International audienceA short-pulse laser beat wave scheme for advanced particle accelerator applica...
We propose a new approach to high-intensity relativistic laser-driven electron acceleration in a pla...
Abstract—High-intensity laser–plasma interaction experiments were performed using high-power laser p...
Studies of charged-particle acceleration processes remain one of the most important areas of researc...
Stimulated Raman forward scattering in a high‐temperature, magnetized plasma is investigated with re...
The coexistence of stimulated Raman forward and backward scattering of intense electromagnetic radia...
The high-gradient electron acceleration schemes that have been demonstrated using LWFA appear promis...
International audienceStimulated Raman forward scattering in a high‐temperature, magnetized plasma i...
Particle acceleration by relativistic electron plasma waves generated by intense lasers has been dem...
In this paper we describe the recent work at UCLA on the acceleration of externally injected electro...
The physics of the beat-excited, relativis-tic electron plasma wave, a candidate for a laser particl...
Experimental evidence for the acceleration of electrons in a relativistic plasma wave generated by R...
Beatwave excitation of plasma waves is analyzed in the regime where relativistic corrections to the ...
Experimental evidence for the acceleration of electrons in a relativistic plasma wave generated by R...