Target design for ignition experiments on the laser Mégajoule facility

Authors :: Giorla, J
Bastian, J
Bayer, C
Canaud, B
Casanova, M
Chaland, F
Cherfils, C
Clique, C
Dattolo, E
Fremerye, P
Galmiche, D
Garaude, F
Gauthier, P
Laffite, S
Lecler, N
Liberatore, S
Loiseau, P
Malinie, G
Masse, L
Masson, A
Monteil, M C
Poggi, F
Quach, R
Renaud, F
Saillard, Y
Seytor, P
Vandenboomgaerde, M
Van der Vliet, J
Wagon, F
Source :: Plasma Physics and Controlled Fusion; December 2006, Vol. 48 Issue: 12 pB75-B82, 8p
Publication Year :: 2006
Abstract: The adoption of a non-uniform dopant profile has substantially increased the tolerance to high mode deformations of our baseline indirect-drive design. In addition, a low deuterium-tritium (DT) gas density, obtained by 'dynamic quenching' at 2.3?K below triple point, could partly compensate for the decrease in robustness due to DT ageing. Finally, the net margin regarding all laser and target technological defects is about 2. As soon as a sufficient amount of laser beams and diagnostics is available, we will shoot pre-ignition experiments to tune the point design. We are studying new targets which need less energy for these campaigns.