International audienceIn this paper, in situ tritium measurements and control by laser techniques are presented. It is proposed to use Laser-Induced Breakdown Spectroscopy (LIBS) as an efficient technique to measure the tritium concentration in ablated material. However, LIBS could be limited due to material melting observed during ablation possibly leading to hydrogen losses. Laser ablation is shown to be an efficient process to recover the in vessel tritium if the dust produced during ablation is collected. This could be forbidden if ITER cannot be operated at high pressure. To overcome this difficulty and detritiate remote surfaces, laser heating could be applied since it generates gaseous compounds. However, inward diffusion could be ex...
As a licensed nuclear facility, ITER must limit the in-vessel tritium (T) retention to reduce the ri...
19th International Conference on Plasma-Surface Interactions in Controlled Fusion Devices (PSI), Uni...
Efficient techniques for rapid tritium removal will be necessary for ITER to meet its physics and en...
International audienceIn this paper, in situ tritium measurements and control by laser techniques ar...
International audienceTreatments of plasma facing components (PFCs) are major issues for ITER operat...
Measurement and control of long term tritium retention is one of the most critical issues for ITER a...
A novel laser heating technique has recently been applied to removing tritium from carbon tiles that...
Laser-based techniques in combination with spectroscopy are proposed for in situ characterization of...
In the fuel cycle of ITER and future fusion reactors, which consists of processes which are fueling,...
Plasma-facing components (PFCs) at ITER are eroded and the material is transported by the edge plasm...
Efficient techniques for rapid tritium removal will be necessary for ITER (International Thermonucle...
AbstractAs a licensed nuclear facility, ITER must limit the in-vessel tritium (T) retention to reduc...
Tritium retention in the plasma facing components and co-deposition in re-deposited layers is a key ...
ITER operation might be limited by the tritium inventory that will be retained in carbon tiles and r...
In situ methods to measure the fuel retention and to characterize the material deposition on the wal...
As a licensed nuclear facility, ITER must limit the in-vessel tritium (T) retention to reduce the ri...
19th International Conference on Plasma-Surface Interactions in Controlled Fusion Devices (PSI), Uni...
Efficient techniques for rapid tritium removal will be necessary for ITER to meet its physics and en...
International audienceIn this paper, in situ tritium measurements and control by laser techniques ar...
International audienceTreatments of plasma facing components (PFCs) are major issues for ITER operat...
Measurement and control of long term tritium retention is one of the most critical issues for ITER a...
A novel laser heating technique has recently been applied to removing tritium from carbon tiles that...
Laser-based techniques in combination with spectroscopy are proposed for in situ characterization of...
In the fuel cycle of ITER and future fusion reactors, which consists of processes which are fueling,...
Plasma-facing components (PFCs) at ITER are eroded and the material is transported by the edge plasm...
Efficient techniques for rapid tritium removal will be necessary for ITER (International Thermonucle...
AbstractAs a licensed nuclear facility, ITER must limit the in-vessel tritium (T) retention to reduc...
Tritium retention in the plasma facing components and co-deposition in re-deposited layers is a key ...
ITER operation might be limited by the tritium inventory that will be retained in carbon tiles and r...
In situ methods to measure the fuel retention and to characterize the material deposition on the wal...
As a licensed nuclear facility, ITER must limit the in-vessel tritium (T) retention to reduce the ri...
19th International Conference on Plasma-Surface Interactions in Controlled Fusion Devices (PSI), Uni...
Efficient techniques for rapid tritium removal will be necessary for ITER to meet its physics and en...