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The Radiation Hydrodynamic Response of a Gas to
B The Hydrodynamics of Blast Waves
A Transport Model for Nonequilibrium Radiation
5 other sections not shown
50 torr absorbed ambient argon argon mixed attenuation coefficient average projected range buffer gas cavity gas cesium computed cooling wave debris driven shock density corresponding deposited energy emission rate energy and momentum energy density energy deposition Engineering Program Report equilibrium Planck mean evaporation Figure FIRE code function Fusion Engineering Program Fusion Reactor gas density gas response heat flux hydrodynamic motion Inertial Confinement Fusion interaction internal energy ionization ions slowing Lagrangian Lagrangian zones Laser Fusion layer McCarville mean free path nonequilibrium radiation Peak Pressure pellet Planck mean free propagation pure argon pure xenon radi radiation energy density radiation hydrodynamic radiation transport Rosseland mean free shock reflection shock wave specific heats spectra speed spherical geometry standard density air target debris target explosion target x-rays target yield thermal conduction thermal radiation thermal wave front thesis torr 0°C transport equation University of Wisconsin volume percent sodium Wisconsin Fusion Engineering xenon