Open AccessAcceleration and Compression of Charged Particle Bunches Using Counter-Propagating Laser Beams
Author(s) -
G. Shvets,
Nathaniel J. Fisch,
A. Pukhov
Publication year - 2000
Language(s) - English
Resource type - Reports
DOI - 10.2172/765442
Subject(s) - bunches , acceleration , physics , wake , plasma , laser , electron , plasma acceleration , charged particle , optics , atomic physics , linear particle accelerator , cherenkov radiation , nuclear physics , mechanics , beam (structure) , ion , classical mechanics , detector , quantum mechanics
The nonlinear interaction between counter-propagating 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 ultra-short (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. The authors 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 utilized in an electron-positron injector