Title :
Experimental study of relativistic self-focusing and self-channeling of an intense laser pulse in an underdense plasma
Author :
Gibbon, P. ; Jakober, F. ; Monot, P. ; Auguste, T.
Author_Institution :
Max-Planck-Gesellschaft, Friedrich-Schiller-Univ., Jena, Germany
fDate :
4/1/1996 12:00:00 AM
Abstract :
This paper reports on experimental investigations on relativistic self-focusing and self-channeling of a terawatt laser pulse (0.7 TW⩽P⩽15 TW) in an underdense plasma. We present results obtained with picosecond (τ=1 ps) and subpicosecond (τ=0.4 ps) pulses. In the “long pulse” regime, modifications in the laser propagation are observed for P<Pc, the critical power for self-focusing. By contrast, self-guiding of subpicosecond pulses is observed for P≈Pc. Using a paraxial envelope model describing the laser propagation and taking into account the plasma response to the ponderomotive force, it is shown that a maximum laser intensity of 5-15 times that reached in vacuum may be achieved when P is in the (1.25-4)×Pc range. It is also demonstrated that ion motion may significantly reduce the effective Pc
Keywords :
optical self-focusing; plasma light propagation; relativistic plasmas; 0.7 to 15 TW; intense laser pulse; laser propagation; long pulse regime; paraxial envelope model; picosecond pulses; ponderomotive force; relativistic self-channeling; relativistic self-focusing; subpicosecond pulses; terawatt laser pulse; underdense plasma; Electron optics; Gas lasers; Laser beams; Laser modes; Laser theory; Optical propagation; Optical pulses; Optical refraction; Plasma waves; Power lasers;
Journal_Title :
Plasma Science, IEEE Transactions on
