EPJ Web of Conferences (Nov 2013)

Reproducibility of hohlraum-driven implosion symmetry on the National Ignition Facility

  • Kyrala G.A.,
  • Bradley D.K.,
  • Callahan D.A.,
  • Dixit S.N.,
  • Edwards M.J.,
  • Glenn S.M.,
  • Glenzer S.H.,
  • Izumi N.,
  • Jones O.S.,
  • Kline J.L.,
  • Landen O.L.,
  • Ma T.,
  • Milovich J.L.,
  • Meezan N.B.,
  • Spears B.K.,
  • Town R.P.J.,
  • Weber S.,
  • Benedetti R.,
  • Döppner T.,
  • Ralph J.,
  • Kilkenny J.

DOI
https://doi.org/10.1051/epjconf/20135902010
Journal volume & issue
Vol. 59
p. 02010

Abstract

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Indirectly driven Symcap capsules are used at the NIF to obtain information about ignition capsule implosion performance, in particular shape. Symcaps replace the cryogenic fuel layer with an equivalent ablator mass and can be similarly diagnosed. Symcaps are good symmetry surrogates to an ignition capsule after the peak of the drive, radiation-hydrodynamics simulations predict that doping of the symcaps vary the behavior of the implosion. We compare the equatorial shapes of a symcap doped with Si or Ge, as well as examine the reproducibility of the shape measurement using two symcaps with the same hohlraum and laser conditions.