Numerical Simulation of Plasma-Based Raman Amplification of Laser Pulses to Petawatt Powers

Author

Trines, Raoul M G M ; Fiúza, Frederico ; Fonseca, Ricardo A. ; Silva, Luis O. ; Bingham, Robert ; Cairns, R. Alan ; Norreys, Peter A.

Author_Institution

Central Laser Facility, STFC Rutherford Appleton Lab., Didcot, UK

Volume

39

Issue

11

fYear

2011

Firstpage

2622

Lastpage

2623

Abstract

Contemporary high-power laser systems make use of solid-state laser technology to reach petawatt pulse powers. The breakdown threshold for optical components in these systems, however, demands beam diameters up to 1 m. Raman amplification of laser beams promises a breakthrough by the use of much smaller amplifying media, i.e., millimeter-diameter-wide plasmas. Through the first large-scale multidimensional particle-in-cell simulations of this process, we have identified the parameter regime where multipetawatt peak laser powers can be reached, while the influence of damaging laser-plasma instabilities is only minor. Snapshots of the probe laser pulse being amplified, generated using state-of-the-art visualization techniques, are presented.

Keywords

Raman spectra; amplification; plasma instability; plasma light propagation; plasma simulation; breakdown threshold; high-power laser systems; large-scale multidimensional particle-in-cell simulations; laser pulses; laser-plasma instabilities; millimeter-diameter-wide plasmas; numerical simulation; optical components; petawatt pulse powers; plasma-based Raman amplification; solid-state laser technology; state-of-the-art visualization techniques; Laser beams; Laser excitation; Plasmas; Power lasers; Probes; Pump lasers; Raman scattering; Lasers; Raman scattering; optical pulse compression;

fLanguage

English

Journal_Title

Plasma Science, IEEE Transactions on

Publisher

ieee

ISSN

0093-3813

Type

jour

DOI

10.1109/TPS.2011.2166277

Filename

6031930