Progress in z-pinch driven dynamic-hohlraums for high-temperature radiation-flow and ICF experiments at Sandia National Laboratories Article Swipe
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Hohlraum
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Inertial confinement fusion
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National laboratory
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National Ignition Facility
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Engineering
T.W.L. Sanford
,
T. J. Nash
,
Richard E. Olson
,
David E. Bliss
,
R. W. Lemke
,
C. L. Olson
,
C. L. Ruiz
,
R. C. Mock
,
J. E. Bailey
,
G. A. Chandler
,
M. E. Cuneo
,
R. J. Leeper
,
M. K. Matzen
,
T. A. Mehlhorn
,
S. A. Slutz
,
W. A. Stygar
,
Darrell L. Peterson
,
R. E. Chrien
,
R. G. Watt
,
N. F. Roderick
,
G. W. Cooper
,
J. P. Apruzese
,
G. S. Sarkisov
,
J. P. Chittenden
,
M. G. Haines
·
YOU?
·
· 2004
· Open Access
·
· DOI: https://doi.org/10.1088/0741-3335/46/12b/036
· OA: W2000344145
YOU?
·
· 2004
· Open Access
·
· DOI: https://doi.org/10.1088/0741-3335/46/12b/036
· OA: W2000344145
Progress in understanding the physics of dynamic-hohlraums is reviewed for a system capable of generating 13 TW of axial radiation for high temperature (>200 eV) radiation-flow experiments and ICF capsule implosions.
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