Title :
Generation of Plasma Wave at Pump-Wave Frequency and Second Harmonic Generation at Ultrarelativistic Laser Power
Author :
Sharma, Parmanand ; Mahmoud, Saleh T. ; Chauhan, Prashant K. ; Sharma, R.P. ; Gupta, Manoj Kumar
Author_Institution :
Centre for Energy Studies, Indian Inst. of Technol. Delhi, New Delhi, India
Abstract :
In this paper, the influence of ponderomotive and relativistic nonlinearities on the filamentation of an ultraintense laser pulse is investigated in three dimensions within the paraxial ray approximations. Generation of electron plasma wave (EPW) structure at pump-wave frequency and the second harmonic generation in these filamentary structures are reported. The generation of the plasma wave is due to intensity gradient (in the transverse direction of the laser beam in filamentary structure) and density gradient (due to ponderomotive-force effect). For typical laser-plasma parameters: The laser intensity = 2.5 times1020 W/cm2; the particles density = 1.9 times 1019 cm-3; and it is found that the maximum intensity of EPW is in the range of 2.0 times 1013 W/cm2. Interaction of the plasma wave with the incident laser beam leads to second harmonic generation, and the yield comes out to be ap 2.1 times 10-7.
Keywords :
approximation theory; laser beams; optical harmonic generation; optical pumping; plasma density; plasma light propagation; plasma nonlinear processes; plasma waves; relativistic plasmas; density gradient; electron plasma wave structure; filamentary structures; laser beam intensity gradient; laser-plasma parameters; paraxial ray approximations; particle density; plasma wave generation; plasma wave-laser beam interaction; ponderomotive nonlinearity; ponderomotive-force effect; pump-wave frequency; relativistic nonlinearity; second harmonic generation; ultraintense laser pulse filamentation; ultrarelativistic laser power; Particle acceleration; plasma waves; second harmonic generation;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2009.2030810
