Two-temperature hydrodynamics of laser-generated ultrashort shock waves in elasto-plastic solids

Denis K Ilnitsky, Viktor A Khokhlov, Nail A Inogamov, Vasily V Zhakhovsky, Yurii V Petrov, Konstantin V Khishchenko, Kirill P Migdal, Sergey I Anisimov
2014 Journal of Physics, Conference Series  
Shock-wave generation by ultrashort laser pulses opens new doors for study of hidden processes in materials happened at an atomic-scale spatiotemporal scales. The poorly explored mechanism of shock generation is started from a short-living two-temperature (2T) state of solid in a thin surface layer where laser energy is deposited. Such 2T state represents a highly non-equilibrium warm dense matter having cold ions and hot electrons with temperatures of 1-2 orders of magnitude higher than the
more » ... higher than the melting point. Here for the first time we present results obtained by our new hybrid hydrodynamics code combining detailed description of 2T states with a model of elasticity together with a wide-range equation of state of solid. New hydro-code has higher accuracy in the 2T stage than molecular dynamics method, because it includes electron related phenomena including thermal conduction, electron-ion collisions and energy transfer, and electron pressure. From the other hand the new code significantly improves our previous version of 2T hydrodynamics model, because now it is capable of reproducing the elastic compression waves, which may have an imprint of supersonic melting like as in MD simulations. With help of the new code we have solved a difficult problem of thermal and dynamic coupling of a molten layer with an uniaxially compressed elastic solid. This approach allows us to describe the recent femtosecond laser experiments.
doi:10.1088/1742-6596/500/3/032021 fatcat:3ujzpu573nbivjtitcgtcsz5xe