Observation of collapsing radiative shocks in laboratory experiments

Observation of collapsing radiative shocks in laboratory experiments

This article reports the observation of the dense, collapsed layer produced by a radiative shock in a laboratory experiment. The experiment uses laser irradiation to accelerate a thin layer of solid-density material to above 100 km ∕ s , the first to probe such high velocities in a radiative shock....

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Veröffentlicht in:Physics of plasmas 2006-08, Vol.13 (8), p.082901-082901-5
Hauptverfasser: Reighard, A. B., Drake, R. P., Dannenberg, K. K., Kremer, D. J., Grosskopf, M., Harding, E. C., Leibrandt, D. R., Glendinning, S. G., Perry, T. S., Remington, B. A., Greenough, J., Knauer, J., Boehly, T., Bouquet, S., Boireau, L., Koenig, M., Vinci, T.
Format: Artikel
Sprache:eng
Schlagworte:
70 PLASMA PHYSICS AND FUSION TECHNOLOGY
ASTROPHYSICS
COMPUTER CODES
CYLINDRICAL CONFIGURATION
LASER RADIATION
LAYERS
LIGHT TRANSMISSION
Physics
PLASMA
PLASMA DENSITY
SHOCK WAVES
THIN FILMS
XENON
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Zusammenfassung:This article reports the observation of the dense, collapsed layer produced by a radiative shock in a laboratory experiment. The experiment uses laser irradiation to accelerate a thin layer of solid-density material to above 100 km ∕ s , the first to probe such high velocities in a radiative shock. The layer in turn drives a shock wave through a cylindrical volume of Xe gas (at ∼ 6 mg ∕ cm 3 ). Radiation from the shocked Xe removes enough energy that the shocked layer increases in density and collapses spatially. This type of system is relevant to a number of astrophysical contexts, providing the potential to observe phenomena of interest to astrophysics and to test astrophysical computer codes.
ISSN:1070-664X
1089-7674
DOI:10.1063/1.2222294