Simulations of fill tube effects on the implosion of high-foot NIF ignition capsules

Simulations of fill tube effects on the implosion of high-foot NIF ignition capsules

Encouraging results have been obtained using a strong first shock during the implosion of carbon-based ablator ignition capsules. These "high-foot" implosion results show that capsule performance deviates from 1D expectations as laser power and energy are increased. A possible cause of thi...

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Veröffentlicht in:Journal of physics. Conference series 2016-05, Vol.717 (1), p.12013
Hauptverfasser: Dittrich, T R, Hurricane, O A, Berzak-Hopkins, L F, Callahan, D A, Casey, D T, Clark, D, Dewald, E L, Doeppner, T, Haan, S W, Hammel, B A, Harte, J A, Hinkel, D E, Kozioziemski, B J, Kritcher, A L, Ma, T, Nikroo, A, Pak, A E, Parham, T G, Park, H-S, Patel, P K, Remington, B A, Salmonson, J D, Springer, P T, Weber, C R, Zimmerman, G B, Kline, J L
Format: Artikel
Sprache:eng
Schlagworte:
70 PLASMA PHYSICS AND FUSION
Ablation
Disruption
ENERGY PLANNING, POLICY AND ECONOMY
ENGINEERING
Gold coatings
Ignition
Implosions
Physics
Silicon dioxide
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Zusammenfassung:Encouraging results have been obtained using a strong first shock during the implosion of carbon-based ablator ignition capsules. These "high-foot" implosion results show that capsule performance deviates from 1D expectations as laser power and energy are increased. A possible cause of this deviation is the disruption of the hot spot by jets originating in the capsule fill tube. Nominally, a 10 μm outside diameter glass (SiO2) fill tube is used in these implosions. Simulations indicate that a thin coating of Au on this glass tube may lessen the hotspot disruption. These results and other mitigation strategies will be presented.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/717/1/012013