Multi-megabar laser-driven shock waves are unique tools for studying matter under extreme conditions. Accurate characterization of shocked matter is for instance necessary for measurements of equation of state data or opacities. This paper reports experiments performed at LULI facility on the diagnosis of shock waves, using X-ray absorption radiography. Radiographs are analyzed using standard Abel inversion. In addition, synthetic radiographs, which also take into account the finite size of the X-ray source, are generated using density maps produced by hydrodynamic simulations. Reported data refer to both plane cylindrical targets and hemispherical targets. Evolution and deformation of the shock front could be followed using hydrodynamic simulations.
Laser-driven shock waves studied by X-ray radiography / Antonelli, Luca; Atzeni, Stefano; Schiavi, Angelo; Baton, S. D.; Brambink, E.; Koenig, M.; Rousseaux, ; M., Richetta; C., Batani; Forestier Colleoni, P.; Le Bel, E.; Maheut, Y.; Ngiyen Bui, T.; Ribeyre, X.; Trela, J.. - In: PHYSICAL REVIEW. E. - ISSN 2470-0045. - STAMPA. - 95:(2017). [10.1103/PhysRevE.95.063205]
Laser-driven shock waves studied by X-ray radiography
ANTONELLI, LUCA;ATZENI, Stefano;SCHIAVI, ANGELO;
2017
Abstract
Multi-megabar laser-driven shock waves are unique tools for studying matter under extreme conditions. Accurate characterization of shocked matter is for instance necessary for measurements of equation of state data or opacities. This paper reports experiments performed at LULI facility on the diagnosis of shock waves, using X-ray absorption radiography. Radiographs are analyzed using standard Abel inversion. In addition, synthetic radiographs, which also take into account the finite size of the X-ray source, are generated using density maps produced by hydrodynamic simulations. Reported data refer to both plane cylindrical targets and hemispherical targets. Evolution and deformation of the shock front could be followed using hydrodynamic simulations.| File | Dimensione | Formato | |
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