Study of shock-coalescence on the LIL laser facility

Study of shock-coalescence on the LIL laser facility

We use the LIL (Ligne d'integration Laser) facility to study the coalescence of two planar shocks in an indirectly-driven planar sample of polystyrene. This experiment represents the preliminary stage of the future shock-timing campaign for the Laser Megajoule (LMJ). The main objectives are to...

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Veröffentlicht in:EPJ Web of conferences 2013-01, Vol.59, p.2006-np
Hauptverfasser: Debras, G., Courtois, C., Lambert, F., Brygoo, S., Duval, A., Darbon, S., Villette, B., Masclet-Gobin, I., Philippe, F., Casner, A., Seytor, P., Videau, L., Graillot, H., Chies, T., Henry, O., Raffestin, D., Chicanne, C.
Format: Artikel
Sprache:eng
Schlagworte:
Coalescing
Computer simulation
Diagnostic systems
Hohlraums
Lasers
Mathematical models
Wavelengths
X-rays
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Beschreibung
Zusammenfassung:We use the LIL (Ligne d'integration Laser) facility to study the coalescence of two planar shocks in an indirectly-driven planar sample of polystyrene. This experiment represents the preliminary stage of the future shock-timing campaign for the Laser Megajoule (LMJ). The main objectives are to validate the experimental concept and to test the numerical simulations. We used a gold spherical hohlraum to convert into X-ray the 351 nm wavelength laser pulse and to initiate the two shocks in the sample. To access time resolved shock velocities and temperature, we used two rear-side diagnostics: a VISAR (Velocity Interferometer System for Any Reflection) working at two different wavelengths and a streaked optical self-emission diagnostic. We observed the coalesced shock, in good agreement with the numerical simulations. We also observed a loss of signal during the first nanoseconds probably due to sample heating from the hohlraum X-ray flux.
ISSN:2100-014X
2100-014X
DOI:10.1051/epjconf/20135902006