Picosecond time scale dynamics of short pulse laser-driven shocks in tin

Grigsby, W.; Bowes, B. T.; Dalton, D. A.; Bernstein, Aaron; Bless, Stephan; Downer, M. C.; Taleff, Eric M.; Colvin, J. D.; Ditmire, T.

doi:10.1063/1.3103602

Journal of Applied Physics

2009

DOI: 10.1063/1.3103602

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Picosecond time scale dynamics of short pulse laser-driven shocks in tin

W. Grigsby¹,

B. T. Bowes²,

D. A. Dalton³

et al.

Abstract: The dynamics of high strain rate shock waves driven by a subnanosecond laser pulse in thin tin slabs have been investigated. These shocks, with pressure up to 1 Mbar, have been diagnosed with an 800 nm wavelength ultrafast laser pulse in a pump-probe configuration, which measured reflectivity and two-dimensional interferometry of the expanding rear surface. Time-resolved rear surface expansion data suggest that we reached pressures necessary to shock melt tin upon compression. Reflectivity measurements, howeve… Show more

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Cited by 5 publications

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Laser-driven high-frequency vibrations of metal blister surface

Kononenko¹,

Sinyavsky²,

Konov³

et al. 2013

Appl. Phys. A

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International audienceTime-resolved interferometric microscopy was applied to investigate laser-induced blistering of a titanium film on a silica substrate. Ablation of the titanium/silica interface by single 0.7 ns pulses within a certain fluence range results in local exfoliation of the metal film from the substrate avoiding, however, complete film destruction. Time-dependent transformation of the metal surface profile was reconstructed from the interference patterns within 0-13 ns time delay range. Transverse annular waves with typical amplitude of one hundred of nanometers and estimated traveling speed of few kilometers per second were revealed on the blister surface. The wave occurrence was attributed to fast inhomogeneous bending of the film covering the expanding blister. The resultant high-frequency (similar to 1 GHz) vibrations of the metal surface provide intensive inertial forces when such metalized target is used for blister-based laser-induced forward transfer of nanopowders and organic molecules

show abstract

Laser-driven high-frequency vibrations of metal blister surface

Kononenko¹,

Sinyavsky²,

Konov³

et al. 2013

Appl. Phys. A

View full text Add to dashboard Cite

show abstract

Shock wave propagation in soda lime glass using optical shadowgraphy

et al. 2016

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Dislocation based high-rate plasticity model and its application to plate-impact and ultra short electron irradiation simulations

Krasnikov

Mayer

Yalovets

2011

International Journal of Plasticity

120

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Picosecond time scale dynamics of short pulse laser-driven shocks in tin

Cited by 5 publications

References 38 publications

Laser-driven high-frequency vibrations of metal blister surface

Laser-driven high-frequency vibrations of metal blister surface

Shock wave propagation in soda lime glass using optical shadowgraphy

Dislocation based high-rate plasticity model and its application to plate-impact and ultra short electron irradiation simulations

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