Experimental demonstration of the reduced expansion of a laser-heated surface using a low density foam layer, pertaining to advanced hohlraum designs with less wall-motion
作者
A. S. Moore,N. B. Meezan,C. A. Thomas,S. D. Bhandarkar,L. Divol,N. Izumi,A. Nikroo,Theodore F. Baumann,M. S. Rubery,J. J. Williams,N. Alfonso,O. L. Landen,W. W. Hsing,J. D. Moody
出处
期刊:Physics of Plasmas [American Institute of Physics] 日期:2020-08-01卷期号:27 (8)被引量:20
The ablative expansion of laser-heated materials is important for determining how hohlraum cavities can be utilized for inertial confinement fusion. The utility of a low-density foam layer to reduce the density of the expanding heated hohlraum wall is demonstrated in a series of experiments on the National Ignition Facility. X-ray radiography measurements of the expanding foam-lined Au wall in low aspect-ratio cylindrical geometry are used to compare the impact of Au-doped CH and Ta2O5 foams between 10 and 40 mg/cc on the wall expansion. HYDRA Simulations are used to estimate the x-ray transmission at the 1/4 nc surface, which is important in understanding the absorption of laser light by the plasma. These demonstrate for the first time that a foam layer reduces the expansion of a hohlraum-like target and illustrate that the interplay between the expanding foam plasma and the shock reflected by the hohlraum wall is critical in optimizing foam-liner parameters to achieve the maximum time for a symmetric drive on a capsule.