Title :
Improved Focusing of a cosh-Gaussian Laser Beam in Quantum Plasma: Higher Order Paraxial Theory
Author :
Habibi, Mahdi ; Ghamari, Forough
Author_Institution :
Young Res. & Elite Club, Islamic Azad Univ., Shirvan, Iran
Abstract :
This paper presents a preliminary study on relativistic self-focusing of cosh-Gaussian (ChG) laser beam and its dependence on the value of decentered parameter b through cold quantum plasma (CQP). In contrast to the earlier work on self-focusing in such a medium, higher order terms in the expansion of the dielectric function and the eikonal have been taken into account. It is seen that the inclusion of such terms (up to r4) in the extended paraxial theory does significantly affect the dependence of the beamwidth parameter (f) on the distance of propagation and allows the modification of the shape of the radial intensity distribution. We have also found that ChG in comparison with Gaussian beam has caused better focusing in the CQP, which is very important for some applications in high power laser-dense plasma interactions.
Keywords :
laser beams; optical self-focusing; plasma light propagation; quantum theory; CQP; ChG; beamwidth parameter; cold quantum plasma; cosh-Gaussian laser beam; decentered parameter; dielectric function expansion; eikonal; extended paraxial theory; high power laser-dense plasma interactions; higher order paraxial theory; propagation distance; radial intensity distribution shape; relativistic self-focusing; Focusing; Laser beams; Laser theory; Optical beams; Optimized production technology; Particle beams; Plasmas; Cold quantum plasma (CQP); cosh-Gaussian (ChG); relativistic self-focusing (RSF); the extended paraxial approximation approach; the extended paraxial approximation approach.;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2015.2440319
