Hydrodynamics driven by ultrashort laser pulse: simulations and the optical pump—X-ray probe experiment

N A Inogamov ,Yu V Petrov,K P Migdal,A Ya Faenov,D K Ilnitsky,Mitsuru Baba ,Masaharu Nishikino ,Shodai Takayoshi ,С И Ашитков ,Noboru Hasegawa ,Masahiko Ishino ,Mitsuru Yamagiwa ,Naoya Kakimoto ,V V Zhakhovsky ,Tohru Suemoto ,В А Хохлов ,Takashi Eyama ,Yasuo Minami ,T A Pikuz ,М Б Агранат ,Takuro Tomita ,Tetsuya Kawachi

doi:10.1007/s00340-015-6039-7

Hydrodynamics driven by ultrashort laser pulse: simulations and the optical pump—X-ray probe experiment

N A Inogamov , Yu V Petrov + Show 20 more

https://doi.org/10.1007/s00340-015-6039-7

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Journal: Applied Physics B	Publication Date: Feb 17, 2015
Citations: 6

Affiliation: Landau Institute for Theoretical Physics, Rosatom (Russia), All Russia Research Institute of Automatics, Joint Institute for High Temperatures, Osaka University, The University of Tokyo, Japan Atomic Energy Agency, Tokushima University

#Two-temperature Hydrodynamics #Laser Pulse #Ultrashort Laser Pulse #Femtosecond Laser Pulses #Molecular Dynamics Methods #Two-temperature Molecular Dynamics #X-ray Probe #Gold Film #Experimental Data #Mass Flow

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Spatial structures of ablative mass flow produced by femtosecond laser pulses are studied. In experiments with a gold film, the Ti:sapp laser pulse having a focal size of 100 microns on a target was used, while a soft X-ray probe pulse was utilized for diagnostics. The experimental data are compared with simulated mass flows obtained by two-temperature hydrodynamics and molecular dynamics methods. Simulation shows evolution of a thin surface layer pressurized after electron–ion thermalization, which leads to melting, cavitation and formation of spallation liquid layer. The calculated asymptotic surface velocity of this layer as a function of fluence is in reasonably good agreement with experimental data.

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Hydrodynamics driven by ultrashort laser pulse: simulations and the optical pump—X-ray probe experiment