We describe an experiment performed at the LULI laser facility using an advanced radiographic technique that allowed obtaining 2D, spatially resolved images of a shocked buried-code-target. The technique is suitable for applications on Fast Ignition as well as Warm Dense Matter research. In our experiment, it allowed to show cone survival up to Mbar pressures and to measure the shock front velocity and the fluid velocity associated to the laser-generated shock. This allowed obtaining one point on the shock polar of porous carbon.
Development of x-ray radiography for high energy density physics / A. Morace, L. Fedeli, D. Batani, S. Baton, F.N. Beg, S. Hulin, L.C. Jarrott, A. Margarit, M. Nakai, M. Nakatsutsumi, P. Nicolai, N. Piovella, M.S. Wei, X. Vaisseau, L. Volpe, J.J. Santos. - In: PHYSICS OF PLASMAS. - ISSN 1070-664X. - 21:10(2014 Oct). [10.1063/1.4900867]
Development of x-ray radiography for high energy density physics
A. Morace
Primo
;N. Piovella;L. Volpe;
2014
Abstract
We describe an experiment performed at the LULI laser facility using an advanced radiographic technique that allowed obtaining 2D, spatially resolved images of a shocked buried-code-target. The technique is suitable for applications on Fast Ignition as well as Warm Dense Matter research. In our experiment, it allowed to show cone survival up to Mbar pressures and to measure the shock front velocity and the fluid velocity associated to the laser-generated shock. This allowed obtaining one point on the shock polar of porous carbon.File | Dimensione | Formato | |
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