Acceleration and compression of charged particle bunches using counterpropagating laser beams

Author

Shvets, Gennady ; Fisch, Nathaniel J. ; Pukhov, Alexander

Author_Institution

Plasma Phys. Lab., Princeton Univ., NJ, USA

Volume

28

Issue

4

fYear

2000

Firstpage

1185

Lastpage

1192

Abstract

The nonlinear interaction between counterpropagating laser beams in a plasma results in the generation of large (enhanced) plasma wakes. The two beams need to be slightly detuned in frequency, and one of them has to be ultrashort (shorter than a plasma period). Thus produced wakes have a phase velocity close to the speed of light and can be used for acceleration and compression of charged bunches, The physical mechanism responsible for the enhanced wake generation is qualitatively described and compared with the conventional laser wakefield mechanism. We also demonstrate that depending on the sign of the frequency difference between the lasers, the enhanced wake can be used as a "snow-plow" to accelerate and compress either positively or negatively charged bunches. This ability can be used in an electron-positron injector.

Keywords

acceleration; laser beam applications; particle beam bunching; plasma flow; plasma light propagation; radiation pressure; charged particle bunch acceleration; charged particle bunch compression; counterpropagating laser beams; electron-positron injector; enhanced plasma wakes; frequency difference; laser wakefield mechanism; negatively charged bunches; nonlinear interaction; phase velocity; plasma period; positively charged bunches; slightly detuned laser beams; snow-plow; speed of light; wake generation; Acceleration; Frequency; Laser beams; Laser excitation; Laser theory; Optical pulses; Particle beams; Plasma accelerators; Plasma measurements; Plasma waves;

fLanguage

English

Journal_Title

Plasma Science, IEEE Transactions on

Publisher

ieee

ISSN

0093-3813

Type

jour

DOI

10.1109/27.893306

Filename

893306