Laser Heating of Solid Matter by Light-Pressure-Driven Shocks at Ultrarelativistic Intensities

K U Akli,K Highbarger,L D Van Woerkom,W Theobald,R Weber,M Storm,N Patel,F N Beg,R R Freeman,A J Mackinnon,M H Key,J S Green,D Hey,R B Stephens,T Ma,E Giraldez,C Stoeckl,J Pasley,G Gregori,S D Chen,Andreas Kemp ,Stephanie B Hansen ,Kate Lancaster ,David Clark ,Catherine Shearer ,P A Norreys ,S Hatchett

doi:10.1103/physrevlett.100.165002

Laser Heating of Solid Matter by Light-Pressure-Driven Shocks at Ultrarelativistic Intensities

K U Akli, K Highbarger + Show 25 more

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https://doi.org/10.1103/physrevlett.100.165002

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Journal: Physical Review Letters	Publication Date: Apr 23, 2008
Citations: 77

Affiliation: Lawrence Livermore National Laboratory, The Ohio State University, United States University, University of California, San Diego, General Atomics (United States)

#Ultrarelativistic Intensities #Preformed Plasma + Show 8 more

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Abstract

The heating of solid targets irradiated by 5 x 10(20) W cm(-2), 0.8 ps, 1.05 microm wavelength laser light is studied by x-ray spectroscopy of the K-shell emission from thin layers of Ni, Mo, and V. A surface layer is heated to approximately 5 keV with an axial temperature gradient of 0.6 microm scale length. Images of Ni Ly(alpha) show the hot region has <or=25 microm diameter. These data are consistent with collisional particle-in-cell simulations using preformed plasma density profiles from hydrodynamic modeling which show that the >100 G bar light pressure compresses the preformed plasma and drives a shock into the solid, heating a thin layer.

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