Title :
Theoretical Study of Ion Acceleration by Double-Layer Formation in Multicharged Laser-Produced Plasmas
Author :
Apiñaniz, Jon I. ; Martínez, Roberto
Author_Institution :
Dept. de Quim. Fis., Univ. del Pais Vasco/EHU, Leioa, Spain
Abstract :
A theoretical study about the ion acceleration in low-energy (1010 W/cm2) laser-produced plasma is presented. Calculations have been implemented following a 1-D particle-in cell method. We describe the plasma-vacuum expansion dynamics and the ion acceleration due to the so-called double-layer formation. Observed results show that, regardless of the initial temperature and density of the plasma, postheating is needed to obtain average values of final ion kinetic energy distributions similar to the experimental results. This confirms that, with nanosecond pulsed lasers, the plasma is strongly heated by the laser pulse tail.
Keywords :
plasma density; plasma flow; plasma light propagation; plasma production by laser; plasma sheaths; plasma simulation; plasma temperature; plasma transport processes; 1D particle in cell method; double layer formation; ion acceleration; ion kinetic energy distribution; low energy laser produced plasma; multicharged laser produced plasmas; nanosecond pulsed lasers; plasma initial density; plasma initial temperature; plasma-vacuum expansion dynamics; post heating; Acceleration; Copper; Ions; Lasers; Plasmas; Space heating; Double layer (DL); kinetic energy; laser-produced plasmas (LPPs);
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2011.2158560
