Tracking the density evolution in counter-propagating shock waves using imaging X-ray scattering

Tracking the density evolution in counter-propagating shock waves using imaging X-ray scattering

We present results from time-resolved X-ray imaging and inelastic scattering on collective excitations. These data are then employed to infer the mass density evolution within laser-driven shock waves. In our experiments, thin carbon foils are first strongly compressed and then driven into a dense s...

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Veröffentlicht in:Applied physics letters 2016-07, Vol.109 (3)
Hauptverfasser: Zastrau, U., Gamboa, E. J., Kraus, D., Benage, J. F., Drake, R. P., Efthimion, P., Falk, K., Falcone, R. W., Fletcher, L. B., Galtier, E., Gauthier, M., Granados, E., Hastings, J. B., Heimann, P., Hill, K., Keiter, P. A., Lu, J., MacDonald, M. J., Montgomery, D. S., Nagler, B., Pablant, N., Schropp, A., Tobias, B., Gericke, D. O., Glenzer, S. H., Lee, H. J.
Format: Artikel
Sprache:eng
Schlagworte:
Applied physics
Density
Dismantling
Evolution
Fluid dynamics
Fluid flow
Foils
Forward scattering
Hydrodynamics
Inelastic scattering
Shock wave propagation
Shock waves
X-ray scattering
XFEL
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Beschreibung
Zusammenfassung:We present results from time-resolved X-ray imaging and inelastic scattering on collective excitations. These data are then employed to infer the mass density evolution within laser-driven shock waves. In our experiments, thin carbon foils are first strongly compressed and then driven into a dense state by counter-propagating shock waves. The different measurements agree that the graphite sample is about twofold compressed when the shock waves collide, and a sharp increase in forward scattering indicates disassembly of the sample 1 ns thereafter. We can benchmark hydrodynamics simulations of colliding shock waves by the X-ray scattering methods employed.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.4959256