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Inogamov, N. A.*; Zhakhovsky, V. V.*; 長谷川 登; 錦野 将元; 山極 満; 石野 雅彦; Agranat, M. B.*; Ashitkov, S. I.*; Faenov, A. Y.*; Khokhlov, V. A.*; et al.
Applied Physics B, 119(3), p.413 - 419, 2015/06
被引用回数:6 パーセンタイル:35.51(Optics)Spatial structures of ablative mass flow produced by femtosecond laser pulses are studied. In experiments with a gold film, the Ti:sap 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.
Inogamov, N. A.*; Zhakhovsky, V. V.*; Ashitkov, S. I.*; Emirov, Y. N.*; Faenov, A. Y.*; Pikuz, T. A.*; 石野 雅彦; 神門 正城; 長谷川 登; 錦野 将元; et al.
Journal of Physics; Conference Series, 500(11), p.112070_1 - 112070_6, 2014/05
被引用回数:21 パーセンタイル:98.75超短パルスレーザーの照射によって金属表面に形成される構造とその形成機構についての報告である。複雑な形状のナノ構造はレーザーの照射によって融解した表面層の破砕的アブレーションによって形成されることが、実験結果および理論計算から示された。破砕的アブレーションは照射レーザーによって加熱融解された表面層の内部に形成される泡状構造の成長を伴っている。融解層はレーザーの照射後数ナノ秒後には凝固し、表面には泡状構造由来の複雑な形状のナノ構造が残ると考えられる。
Zhidkov, A. G.*; Pikuz, S. A.*; Faenov, A. Y.; Chefonov, O. V.*; Ovchinikov, A. V.*; Agranat, M. B.*; Zigler, A.*
Optics Letters, 37(5), p.884 - 886, 2012/03
被引用回数:3 パーセンタイル:18.38(Optics)X ray radiation as high as 50 KeV, including K-shell spectra of Ba, have been observed during the interaction of low energy 0.65 mJ, 1 kHz femtosecond laser pulses focused on the solid target in air of atmospheric pressure. Possible mechanism of such generation by energetic electrons produced when the field strength in laser pulse wake exceeds the runaway threshold in air is considered. Multidimensional particle-in-cell simulations including optical field ionization of air confirm this mechanism.
Inogamov, N. A.*; Zhakhovsky, V. V.*; Ashitkov, S.*; Eminov, Yu.*; Faenov, A.*; Petrov, Y. V.*; Khokhlov, V.*; 石野 雅彦; Demaske, B.*; 田中 桃子; et al.
no journal, ,
Results of investigations of surface nanomodification caused by ultrashort laser pulses from infrared will be presented and discussed.
