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Yield degradation mechanisms for two-shock capsules evaluated through simulations
Author(s) -
Paul A. Bradley,
Brian Haines,
G. A. Kyrala,
S. A. MacLaren,
J. D. Salmonson,
Jesse Pino,
Kyle K. Mackay,
R. R. Peterson,
A. Yi,
L. Yin,
Richard E. Olson,
Н. С. Крашенинникова,
S. H. Batha,
J. L. Kline,
Joshua Sauppe,
S. M. Finnegan,
A. Pak,
T. Ma,
Thomas Dittrich,
E. L. Dewald,
S. F. Khan,
D. B. Sayre,
R. Tommasini,
J. E. Ralph,
J. E. Field,
L. Massé,
Robert Tipton,
A. J. Mackin,
L. R. Benedetti,
S. R. Nagel,
D. K. Bradley,
P. M. Celliers,
L. Berzak Hopkins,
N. Izumi,
P. Kervin,
C. B. Yeamans,
R. Hatarik,
E. P. Hartouni,
D. Turnbull,
K. C. Chen,
D. Hoover
Publication year - 2022
Publication title -
physics of plasmas
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.75
H-Index - 160
eISSN - 1089-7674
pISSN - 1070-664X
DOI - 10.1063/5.0098496
Subject(s) - national ignition facility , physics , radius , ignition system , yield (engineering) , shock (circulatory) , plasma , hydrogen , nuclear engineering , jet (fluid) , mechanics , nuclear physics , thermodynamics , inertial confinement fusion , medicine , computer security , quantum mechanics , computer science , engineering

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