Title :
Laser Self-Focusing and Nonlinear Absorption in Expanding Clusters
Author :
Liu, Chuan Sheng ; Parashar, Jetendra
Abstract :
An intense short-pulse laser, propagating through a clustered gas, converts the clusters into hot plasma balls on subpicosecond time scale. The polarizability of a ball scales as (omegape 2/3 - omega2)-2, where omegape is the plasma frequency inside it and omega is the laser frequency. Initially, omegape 2/3 > omega2; however, as the clusters expand under hydrodynamic pressure, decreases, causing resonant enhancement in permittivity, first near the laser axis and later away from it. The nonuniform refractive index profile thus created leads to self-focusing of the laser. It also leads to enhanced absorption in its neighborhood that counters the self-focusing effect substantially.
Keywords :
atomic clusters; high-speed optical techniques; optical self-focusing; permittivity; plasma dielectric properties; plasma nonlinear processes; plasma production by laser; refractive index; enhanced absorption; expanding clustered gas; hot plasma balls; hydrodynamic pressure; intense short pulse laser propagation; laser frequency; laser self focusing; nonlinear laser absorption; nonuniform refractive index; plasma ball polarizability; plasma frequency; resonant permittivity enhancement; Absorption; Frequency; Gas lasers; Hydrodynamics; Optical propagation; Permittivity; Plasmas; Polarization; Refractive index; Resonance; Atomic clusters; nonlinear absorption; self focusing;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2007.902126
