Capsule performance optimization in the National Ignition Campaign | Zendy

O. L. Landen | Zendy; T. R. Boehly | Zendy; D. K. Bradley | Zendy; D. G. Braun | Zendy; D. A. Callahan | Zendy; P. M. Celliers | Zendy; G. W. Collins | Zendy; E. L. Dewald | Zendy; L. Divol | Zendy; S. H. Glenzer | Zendy; A. V. Hamza | Zendy; D. G. Hicks | Zendy; N. M. Hoffman | Zendy; N. Izumi | Zendy; O. S. Jones | Zendy; R. K. Kirkwood | Zendy; G. A. Kyrala | Zendy; P. Michel | Zendy; J. L. Milovich | Zendy; D. H. Munro | Zendy; A. Nikroo | Zendy; Richard E. Olson | Zendy; H. F. Robey | Zendy; B. K. Spears | Zendy; C. A. Thomas | Zendy; S. V. Weber | Zendy; D. C. Wilson | Zendy; M. M. Marinak | Zendy; L. J. Suter | Zendy; B. A. Hammel | Zendy; D. D. Meyerhofer | Zendy; J. Atherton | Zendy; John Edwards | Zendy; S. W. Haan | Zendy; J. D. Lindl | Zendy; B. J. MacGowan | Zendy; E. I. Moses | Zendy

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Capsule performance optimization in the National Ignition Campaign

Author(s) -

O. L. Landen,

T. R. Boehly,

D. K. Bradley,

D. G. Braun,

D. A. Callahan,

P. M. Celliers,

G. W. Collins,

E. L. Dewald,

L. Divol,

S. H. Glenzer,

A. V. Hamza,

D. G. Hicks,

N. M. Hoffman,

N. Izumi,

O. S. Jones,

R. K. Kirkwood,

G. A. Kyrala,

P. Michel,

J. L. Milovich,

D. H. Munro,

A. Nikroo,

Richard E. Olson,

H. F. Robey,

B. K. Spears,

C. A. Thomas,

S. V. Weber,

D. C. Wilson,

M. M. Marinak,

L. J. Suter,

B. A. Hammel,

D. D. Meyerhofer,

J. Atherton,

John Edwards,

S. W. Haan,

J. D. Lindl,

B. J. MacGowan,

E. I. Moses

Publication year - 2010

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 - 10.1063/1.3298882

Subject(s) - hohlraum , national ignition facility , ignition system , implosion , physics , nova (rocket) , inertial confinement fusion , nuclear engineering , laser , residual , optics , plasma , aerospace engineering , nuclear physics , computer science , thermodynamics , engineering , algorithm

A capsule performance optimization campaign will be conducted at the National Ignition Facility [G. H. Miller et al., Nucl. Fusion44, 228 (2004)] to substantially increase the probability of ignition by laser-driven hohlraums [J. D. Lindl et al., Phys. Plasmas11, 339 (2004)]. The campaign will experimentally correct for residual uncertainties in the implosion and hohlraum physics used in our radiation-hydrodynamic computational models before proceeding to cryogenic-layered implosions and ignition attempts. The required tuning techniques using a variety of ignition capsule surrogates have been demonstrated at the OMEGA facility under scaled hohlraum and capsule conditions relevant to the ignition design and shown to meet the required sensitivity and accuracy. In addition, a roll-up of all expected random and systematic uncertainties in setting the key ignition laser and target parameters due to residual measurement, calibration, cross-coupling, surrogacy, and scale-up errors has been derived that meets the required budget

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