论文信息 - Hydrodynamics simulations of 2ω laser propagation in underdense gasbag plasmas

Hydrodynamics simulations of 2ω laser propagation in underdense gasbag plasmas

Recent 2ω laser propagation and stimulated Raman backscatter (SRS) experiments performed on the Helen laser have been analyzed using the radiation-hydrodynamics code HYDRA [M. M. Marinak, G. D. Kerbel, N. A. Gentile, O. Jones, D. Munro, S. Pollaine, T. R. Dittrich, and S. W. Haan, Phys. Plasmas 8, 2275 (2001)]. These experiments utilized two diagnostics sensitive to the hydrodynamics of gasbag targets: a fast x-ray framing camera (FXI) and a SRS streak spectrometer. With a newly implemented nonlocal thermal transport model, HYDRA is able to reproduce many features seen in the FXI images and the SRS streak spectra. Experimental and simulated side-on FXI images suggest that propagation can be explained by classical laser absorption and the resulting hydrodynamics. Synthetic SRS spectra generated from the HYDRA results reproduce the details of the experimental SRS streak spectra. Most features in the synthetic spectra can be explained solely by axial density and temperature gradients. The total SRS backscatt...

[1] Steven W. Haan,et al. Three-dimensional HYDRA simulations of National Ignition Facility targets , 2001 .

[2] Guy Schurtz,et al. A nonlocal electron conduction model for multidimensional radiation hydrodynamics codes , 2000 .

[3] Experimental study of laser beam transmission and power accounting in a large scale length laser plasma , 2000 .

[4] C. Danson,et al. Binary phase zone-plate arrays for laser-beam spatial-intensity distribution conversion. , 1993, Applied optics.

[5] N. Hopps,et al. Multipass reconfiguration of the HELEN Nd:glass laser at the Atomic Weapons Establishment. , 2002, Applied optics.

[6] M. Haines. Magnetic-field generation in laser fusion and hot-electron transport , 1986 .

[7] E. M. Epperlein,et al. Plasma transport coefficients in a magnetic field by direct numerical solution of the Fokker–Planck equation , 1986 .

[8] G. Zimmerman,et al. A new quotidian equation of state (QEOS) for hot dense matter , 1988 .

[9] K. Fournier,et al. Effects of plasma composition on backscatter, hot electron production, and propagation in underdense plasmas , 2004 .

[10] Gregory A. Moses,et al. Inertial confinement fusion , 1982 .

[11] A. B. Langdon,et al. Theory and three‐dimensional simulation of light filamentation in laser‐produced plasma , 1993 .