EPJ Web of Conferences (Nov 2013)

Hohlraum designs for high velocity implosions on NIF

  • Meezan Nathan B.,
  • Hicks Damien G.,
  • Callahan Debra A.,
  • Olson Richard E.,
  • Schneider Marilyn S.,
  • Thomas Cliff A.,
  • Robey Harry F.,
  • Celliers Peter M.,
  • Kline John L.,
  • Dixit Shamasundar N.,
  • Michel Pierre A.,
  • Jones Ogden S.,
  • Clark Daniel S.,
  • Ralph Joseph E.,
  • Döppner Tilo,
  • MacKinnon Andrew J.,
  • Haan Steven W.,
  • Landen Otto L.,
  • Glenzer Siegfried H.,
  • Suter Laurence J.,
  • Edwards Michael J.,
  • MacGowan Brian J.,
  • Lindl John D.,
  • Atherton Lawrence J.

DOI
https://doi.org/10.1051/epjconf/20135902002
Journal volume & issue
Vol. 59
p. 02002

Abstract

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In this paper, we compare experimental shock and capsule trajectories to design calculations using the radiation-hydrodynamics code hydra. The measured trajectories from surrogate ignition targets are consistent with reducing the x-ray flux on the capsule by about 85%. A new method of extracting the radiation temperature from x-ray data shows that about half of the apparent 15% flux deficit in the data with respect to the simulations can be explained by hydra overestimating the x-ray flux on the capsule.