Development and characterization of a Z-pinch-driven hohlraum high-yield inertial confinement fusion target concept

Initial experiments to study the Z-pinch-driven hohlraum high-yield inertial confinement fusion (ICF) concept of Hammer, Tabak, and Porter [Hammer et al., Phys. Plasmas 6, 2129 (1999)] are described. The relationship between measured pinch power, hohlraum temperature, and secondary hohlraum coupling...

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Published in:Physics of Plasmas 2001-05, Vol.8 (5), p.2257-2267
Main Authors: Cuneo, Michael E., Vesey, Roger A., Porter, John L., Chandler, Gordon A., Fehl, David L., Gilliland, Terrance L., Hanson, David L., McGurn, John S., Reynolds, Paul G., Ruggles, Laurence E., Seamen, Hans, Spielman, Rick B., Struve, Ken W., Stygar, William A., Simpson, Walter W., Torres, Jose A., Wenger, David F., Hammer, James H., Rambo, Peter W., Peterson, Darrell L., Idzorek, George C.
Format: Article
Language:English
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Summary:Initial experiments to study the Z-pinch-driven hohlraum high-yield inertial confinement fusion (ICF) concept of Hammer, Tabak, and Porter [Hammer et al., Phys. Plasmas 6, 2129 (1999)] are described. The relationship between measured pinch power, hohlraum temperature, and secondary hohlraum coupling (“hohlraum energetics”) is well understood from zero-dimensional semianalytic, and two-dimensional view factor and radiation magnetohydrodynamics models. These experiments have shown the highest x-ray powers coupled to any Z-pinch-driven secondary hohlraum (26±5 TW), indicating the concept could scale to fusion yields of >200 MJ. A novel, single-sided power feed, double-pinch driven secondary that meets the pinch simultaneity requirements for polar radiation symmetry has also been developed. This source will permit investigation of the pinch power balance and hohlraum geometry requirements for ICF relevant secondary radiation symmetry, leading to a capsule implosion capability on the Z accelerator [Spielman et al., Phys. Plasmas 5, 2105 (1998)].
ISSN:1070-664X
1089-7674
DOI:10.1063/1.1348328