Design and modeling of ignition targets for the National Ignition Facility
1995; American Institute of Physics; Volume: 2; Issue: 6 Linguagem: Inglês
10.1063/1.871209
ISSN1527-2419
AutoresS. W. Haan, S. M. Pollaine, J. D. Lindl, L. J. Suter, R. L. Berger, L. V. Powers, William E. Alley, Peter Amendt, J. A. H. Futterman, W. K. Levedahl, M. D. Rosen, D. Rowley, R. A. Sacks, A.I. Shestakov, George L. Strobel, M. Tabak, S. V. Weber, G. B. Zimmerman, William J. Krauser, D. C. Wilson, S.V. Coggeshall, David B. Harris, N. M. Hoffman, Bernhard H. Wilde,
Tópico(s)Atomic and Molecular Physics
ResumoSeveral targets are described that in simulations give yields of 1–30 MJ when indirectly driven by 0.9–2 MJ of 0.35 μm laser light. The article describes the targets, the modeling that was used to design them, and the modeling done to set specifications for the laser system in the proposed National Ignition Facility. Capsules with beryllium or polystyrene ablators are enclosed in gold hohlraums. All the designs utilize a cryogenic fuel layer; it is very difficult to achieve ignition at this scale with a noncryogenic capsule. It is necessary to use multiple bands of illumination in the hohlraum to achieve sufficiently uniform x-ray irradiation, and to use a low-Z gas fill in the hohlraum to reduce filling of the hohlraum with gold plasma. Critical issues are hohlraum design and optimization, Rayleigh–Taylor instability modeling, and laser–plasma interactions.
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