K. C. Chen scite author profile

Surrogate implosions play an important role at the National Ignition Facility (NIF) for isolating aspects of the complex physical processes associated with fully integrated ignition experiments. The newly developed CD Symcap platform has been designed to study gas-shell mix in indirectly driven, pure T2-gas filled CH-shell implosions equipped with 4 μm thick CD layers. This configuration provides a direct nuclear signature of mix as the DT yield (above a characterized D contamination background) is produced by D from the CD layer in the shell, mixing into the T-gas core. The CD layer can be placed at different locations within the CH shell to probe the depth and extent of mix. CD layers placed flush with the gas-shell interface and recessed up to 8 μm have shown that most of the mix occurs at the inner-shell surface. In addition, time-gated x-ray images of the hotspot show large brightly radiating objects traversing through the hotspot around bang-time, which are likely chunks of CH/CD plastic. This platform is a powerful new capability at the NIF for understanding mix, one of the key performance issues for ignition experiments.

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Fabrication of Graded Germanium-Doped CH Shells

Chen

Cook

Huang

et al. 2006

Fusion Science and Technology

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Creep-Resistance of Developmental Polycrystalline Yttrium-Aluminum Garnet Fibers

Morscher

Chen

Mazdiyasni

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Mechanical Properties of Thin GDP Shells Used as Cryogenic Direct Drive Targets at OMEGA

Nikroo

Czechowicz

Chen

et al. 2004

Fusion Science and Technology

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K. C. Chen

Erratum: “Review of the National Ignition Campaign 2009-2012” [Phys. Plasmas 21, 020501 (2014)]

Development of the CD Symcap platform to study gas-shell mix in implosions at the National Ignition Facility

Fabrication of Graded Germanium-Doped CH Shells

Creep-Resistance of Developmental Polycrystalline Yttrium-Aluminum Garnet Fibers

Mechanical Properties of Thin GDP Shells Used as Cryogenic Direct Drive Targets at OMEGA

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