Target area chamber system design for the National Ignition Facility

Wavrik, R; Boyes, J; Olson, C; Garcia, R; Karpenko, V; Anderson, A; Tobin, M; Latkowski, J

Title: Target area chamber system design for the National Ignition Facility

Journal Article · Tue Nov 01 00:00:00 EST 1994 · Fusion Technology

OSTI ID:42539

Wavrik, R; Boyes, J; Olson, C; Garcia, R ^[1]; Karpenko, V; Anderson, A; Tobin, M; Latkowski, J ^[2]

Sandia National Labs., Albuquerque, NM (United States)
Lawrence Livermore National Lab., CA (United States)

The National Ignition Facility (NIF) is a proposed Department of Energy facility which will contribute to the resolution of important Defense Program and inertial fusion energy issues for energy production in the future. The NIF will consist of a laser system with 192 independent beamlets transported to a target chamber. The target chamber is a multi-purpose structure that provides the interface between the target and the laser optics. The chamber must be capable of achieving moderate vacuum levels in reasonable times; it must remain dimensionally stable within micron tolerances, provide support for the optics, diagnostics, and target positioner; it must minimize the debris from the x-ray and laser light environments; and it must be capable of supporting external neutron shielding. The chamber must also be fabricated from a low neutron activation material. The fusion reaction in the target gives off neutrons, x-ray and gamma rays. The x-rays and gamma rays interact with the interior of the target chamber wall while neutrons penetrate the wall. In order to minimize the neutron of components outside the target chamber and to absorb gammas emitted from the activated chamber, shielding will be placed immediately outside the chamber. The target chamber contains the target positioner. The target positioner moves the target from outside the chamber to the center of the chamber and positions the target at the focal spot of the laser beams. The target positioner must be survivable in a harsh radioactive environment. The materials used must be low activation and have a high stiffness to weight ratio to maintain target stability. This paper describes the conceptual design of the target chamber, target positioner, and shielding for the NIF.

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OSTI ID:: 42539

Report Number(s):: CONF-940630-; ISSN 0748-1896; TRN: 95:002923-0077

Journal Information:: Fusion Technology, Vol. 26, Issue 3; Conference: 11. topical meeting on the technology of fusion energy, New Orleans, LA (United States), 19-24 Jun 1994; Other Information: PBD: Nov 1994

Country of Publication:: United States

Language:: English

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Title: Target area chamber system design for the National Ignition Facility

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