Physics – Plasma Physics
Scientific paper
Oct 2006
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2006aps..dppnp1133s&link_type=abstract
American Physical Society, 48th Annual Meeting of the Division of Plasma Physics, October 30-November 3, 2006, abstract #NP1.133
Physics
Plasma Physics
Scientific paper
We have been developing an experiment for the measurement of the sound velocity of high-temperature, high-density iron relevant to earth core by side-on x-ray radiography. When a foil target is irradiated by laser, shock wave propagates in the foil. After the shock front reaches the rear surface, reflected rarefaction wave moves back to the laser-irradiated surface. When the rarefaction wave (sound wave) reaches the laser-irradiated surface, the laser-irradiated surface starts to accelerate. From the measurement of the shock breakout timing and the rarefaction breakout timing with x-ray radiograph, it is possible to obtain the sound velocity. The experiments were done on the HIPER laser facility at ILE, Osaka Univ. In order to avoid the preheating, we employed three-layered target (CH - Au - Fe). The pulse shape of the irradiated laser was foot pulse (2φ, 4 ns, 2x10^12 W/cm^2) followed by main pulse (3φ, 7.5 ns, 2x10^13 W/cm^2). We measured the shock velocity and the shocked temperature from the rear-surface emission spectrum to characterize pressure and temperature of the laser-compressed iron in addition to the sound velocity. We also started an experiment for liquid hydrogen targets relevant to Jupiter condition. Preliminary experimental results on the shock measurements on hydrogen are presented.
Azechi Hiroshi
Ichinose D.
Ikoma Masahiro
Irifune Tetsuo
Mima Kunioki
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