Title :
Relativistic self-injection effects on ultra-intense laser wake field acceleration
Author :
Zhidkov, A. ; Uesaka, M. ; Kinoshita, Keizo ; Koga, James
Author_Institution :
Nucl. Eng. Res. Lab., Tokyo Univ., Japan
Abstract :
Summary form only given, as follows. In the present work, we present a new mechanism of electron injection originating from the relativistic character of the laser-plasma interaction. The self-injection of plasma electrons which have been accelerated to relativistic energies by a laser pulse moving with a group velocity less than the speed of light is found via particle-in-cell simulation to be efficient for laser wake field acceleration.
Keywords :
particle beam injection; plasma accelerators; plasma simulation; wakefield accelerators; Maxwellian distribution; electron injection; high quality electron beam; laser-plasma interaction; low plasma density; matching condition; particle-in-cell simulation; relativistic self-injection effects; relativistically intense laser pulse; ultraintense laser wakefield acceleration; under-dense plasma; wave-breaking; Acceleration; Electron beams; Optical pulse generation; Optical pulses; Plasma accelerators; Plasma density; Plasma displays; Plasma simulation; Plasma temperature; Plasma waves;
Conference_Titel :
Plasma Science, 2002. ICOPS 2002. IEEE Conference Record - Abstracts. The 29th IEEE International Conference on
Conference_Location :
Banff, Alberta, Canada
Print_ISBN :
0-7803-7407-X
DOI :
10.1109/PLASMA.2002.1030272
