Progress towards realization of a laser IFE solid wall chamber

The high average power laser (HAPL) program aims at developing laser inertial fusion energy (Laser IFE) based on lasers, direct drive targets and a solid wall chamber. The preferred first wall configuration is based on tungsten and ferritic steel as armor and structural materials, respectively. A ke...

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Bibliographic Details
Published in:Fusion engineering and design 2006-02, Vol.81 (8), p.1627-1638
Main Authors: Raffray, A.R., Blanchard, J., Latkowski, J., Najmabadi, F., Renk, T., Sethian, J., Sharafat, S., Snead, L.
Format: Article
Language:English
Subjects:
Applied sciences
Armor thermo-mechanical response
Controled nuclear fusion plants
Energy
Energy. Thermal use of fuels
Exact sciences and technology
He retention
Inertial fusion energy
Installations for energy generation and conversion: thermal and electrical energy
Ion implantation
Tungsten armor
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Summary:The high average power laser (HAPL) program aims at developing laser inertial fusion energy (Laser IFE) based on lasers, direct drive targets and a solid wall chamber. The preferred first wall configuration is based on tungsten and ferritic steel as armor and structural materials, respectively. A key concern is the survival of the first wall under the X-ray and ion energy deposition from the fusion micro-explosion. The HAPL design and R&D effort in the chamber and material area is focused toward understanding and resolving the key armor survival issues. This includes modeling and experimental testing of the armor thermo-mechanical behavior in facilities utilizing ion, X-rays and laser sources to simulate IFE conditions. Helium management is addressed by conducting implantation experiments along with modeling of He behavior in tungsten. This paper summarizes the HAPL chamber activities. The first wall/armor configuration and design analysis are described, key chamber issues are discussed, and the R&D to address them is highlighted.
ISSN:0920-3796
1873-7196
DOI:10.1016/j.fusengdes.2005.07.041