Effect of plastic coating on the density of plasma formed in Si foil targets irradiated by ultra-high-contrast relativistic laser pulses.

A S Martynenko,S A Pikuz,S N Ryazantsev,L Doehl,P Durey,C Baird,C Spindloe,A Ya Faenov,D Farley,C D Murphy,T A Pikuz,R Kodama,K Lancaster,N Woolsey,P Mckenna,N Booth,I Yu Skobelev

doi:10.1103/physreve.101.043208

Effect of plastic coating on the density of plasma formed in Si foil targets irradiated by ultra-high-contrast relativistic laser pulses.

A S Martynenko, S A Pikuz + Show 15 more

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https://doi.org/10.1103/physreve.101.043208

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Journal: Physical review. E	Publication Date: Apr 17, 2020
Citations: 7

Affiliation: Joint Institute for High Temperatures, Moscow Engineering Physics Institute, University of York, Rutherford Appleton Laboratory, Osaka University, University of Strathclyde

#Relativistic Laser Pulses #Solid Density Plasmas + Show 8 more

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Abstract

The formation of high energy density matter occurs in inertial confinement fusion, astrophysical, and geophysical systems. In this context, it is important to couple as much energy as possible into a target while maintaining high density. A recent experimental campaign, using buried layer (or "sandwich" type) targets and the ultrahigh laser contrast Vulcan petawatt laser facility, resulted in 500 Mbar pressures in solid density plasmas (which corresponds to about 4.6×10^{7}J/cm^{3} energy density). The densities and temperatures of the generated plasma were measured based on the analysis of x-ray spectral line profiles and relative intensities.

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