Title :
Laser and Particle Dynamics in LWFA
Author :
Balakin, A.A. ; Veysman, M. ; Andreev, N.E. ; Cros, B. ; Kuznetsov, S.V. ; Maynard, G.
Author_Institution :
Inst. of Appl. Phys., Nizhny Novgorod, Russia
Abstract :
The concept of electron acceleration in the wakefields behind powerful laser pulses propagating in gas-filled capillaries or plasma channels has been widely discussed during the past years. In the presented images, we show two aspects of electron acceleration: 1) the problem of precise focusing and pointing stability of the laser pulse, necessary for the regular structure of the wakefield generated in a capillary, and 2) self-consistent simulation of the electron trapping, compression, and acceleration in the wakefield generated in a plasma channel using the scheme of an electron bunch injection in front of the laser pulse.
Keywords :
plasma focus; plasma instability; plasma light propagation; plasma simulation; plasma transport processes; LWFA; electron acceleration; electron bunch injection; electron trapping; focusing stability; gas-filled capillary; laser dynamics; laser pulses; particle dynamics; plasma channel; plasma channels; pointing stability; self-consistent simulation; Acceleration; Gas lasers; Graphics; Laser theory; Plasmas; Waveguide lasers; Electron accelerators; laser theory; optical waveguides; plasma applications; plasma waves;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2011.2160365
