Investigation of radial wire arrays for inertial confinement fusion and radiation effects science.

Serrano, Jason Dimitri; Bland, Simon Nicholas; McBride, Ryan D; Chittenden, Jeremy Paul; Suzuki-Vidal, Francisco Andres; Jennings, Christopher A; Hall, Gareth Neville; Ampleford, David J; Peyton, Bradley Philip; Lebedev, Sergey V; Cleveland, Monica; Rogers, Thomas John; Cuneo, Michael Edward; Coverdale, Christine Anne; Jones, Brent Manley; Jones, Michael C

doi:10.2172/984151

Investigation of radial wire arrays for inertial confinement fusion and radiation effects science.

Technical Report · Sun Jan 31 23:00:00 EST 2010

DOI:https://doi.org/10.2172/984151· OSTI ID:984151

Serrano, Jason Dimitri; Bland, Simon Nicholas ^[1]; McBride, Ryan D; Chittenden, Jeremy Paul ^[1]; Suzuki-Vidal, Francisco Andres ^[1]; Jennings, Christopher A; Hall, Gareth Neville ^[1]; Ampleford, David J; Peyton, Bradley Philip; Lebedev, Sergey V ^[1]; Cleveland, Monica; Rogers, Thomas John; Cuneo, Michael Edward; Coverdale, Christine Anne; Jones, Brent Manley; Jones, Michael C

Imperial College, London

Radial wire arrays provide an alternative x-ray source for Z-pinch driven Inertial Confinement Fusion. These arrays, where wires are positioned radially outwards from a central cathode to a concentric anode, have the potential to drive a more compact ICF hohlraum. A number of experiments were performed on the 7MA Saturn Generator. These experiments studied a number of potential risks in scaling radial wire arrays up from the 1MA level, where they have been shown to provide similar x-ray outputs to larger diameter cylindrical arrays, to the higher current levels required for ICF. Data indicates that at 7MA radial arrays can obtain higher power densities than cylindrical wire arrays, so may be of use for x-ray driven ICF on future facilities. Even at the 7MA level, data using Saturn's short pulse mode indicates that a radial array should be able to drive a compact hohlraum to temperatures {approx}92eV, which may be of interest for opacity experiments. These arrays are also shown to have applications to jet production for laboratory astrophysics. MHD simulations require additional physics to match the observed behavior.

Research Organization:: Sandia National Laboratories

Sponsoring Organization:: USDOE

DOE Contract Number:: AC04-94AL85000

OSTI ID:: 984151

Report Number(s):: SAND2010-0833

Country of Publication:: United States

Language:: English

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Related Subjects

70 PLASMA PHYSICS AND FUSION TECHNOLOGY
71 CLASSICAL AND QUANTUM MECHANICS
GENERAL PHYSICS
ASTROPHYSICS
Arrays.
CATHODES
Fusion reactors.
INERTIAL CONFINEMENT
OPACITY
PHYSICS
PRODUCTION
RADIATION EFFECTS
X-RAY SOURCES
Z-Accelerator.

Investigation of radial wire arrays for inertial confinement fusion and radiation effects science.

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