Physics of High Energy Density, Volume 48Piero Caldirola, Heinz Knoepfel |
Contents
Some thoughts about high energy densities | 1 |
R N KEELER and E B ROYCE Shock waves in condensed | 47 |
using flash gap techniques | 63 |
Copyright | |
23 other sections not shown
Common terms and phrases
absorption acceleration adiabatic AL'TSHULER Appl approximation assumed atomic beam Brillouin scattering calculated carbon tetrachloride characteristic cm/us coefficient condensed conduction band conductivity constant converging cumulation curve cylindrical D₂ demagnetization detonation wave deuterium dynamic effects elastic electrical electrical conductivity electron energy density equation equilibrium experimental experiments fluid flux Frascati free surface gamma gas-dynamical given Hugoniot imploding incident shock increase initial integral interaction ionized isentrope JETP Journ kbar laboratory laser light liner liquid magnetic field material Mbar measurements medium metals motion obtained optical optical thickness P₁ P₂ parameters phase phase transition Phys physical plane plasma plate projectile propagation pulse R₁ radiation radius rarefaction ratio reflected shock region relation sample self-similar shock compression shock front shock wave shock-wave shown in Fig solid solution specific heat techniques temperature thermal thermodynamic thickness tion transition translation in Sov u₁ V₁ volume wave speed Žurn