Backscatter Reduction Using Combined Spatial, Temporal, and Polarization Beam Smoothing in a Long-Scale-length Laser Plasma

Artigo Revisado por pares

Backscatter Reduction Using Combined Spatial, Temporal, and Polarization Beam Smoothing in a Long-Scale-length Laser Plasma

2001; American Physical Society; Volume: 86; Issue: 13 Linguagem: Inglês

10.1103/physrevlett.86.2810

ISSN

1092-0145

Autores

J. D. Moody, B. J. MacGowan, Joshua E. Rothenberg, R. L. Berger, L. Divol, S. H. Glenzer, R. K. Kirkwood, E. A. Williams, P. E. Young,

Tópico(s)

Laser-Matter Interactions and Applications

Resumo

Spatial, temporal, and polarization smoothing schemes are combined for the first time to reduce to a few percent the total stimulated backscatter of a NIF-like probe laser beam (2x10(15) W/cm (2), 351 nm, f/8) in a long-scale-length laser plasma. Combining temporal and polarization smoothing reduces simulated Brillouin scattering and simulated Raman scattering (SRS) up to an order of magnitude although neither smoothing scheme by itself is uniformly effective. The results agree with trends observed in simulations performed with the laser-plasma interaction code F3D simulations [R. L. Berger et al., Phys. Plasma 6, 1043 (1999)].

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Backscatter Reduction Using Combined Spatial, Temporal, and Polarization Beam Smoothing in a Long-Scale-length Laser Plasma