Oxygen Profile Evolution in NIF GDP Ablator Capsules

H. Huang; D.M. Haas; J.J. Wu; R.B. Stephens; K.A. Moreno; A. Nikroo; J.D. Salmonson; Steven Haan; M. Stadermann; S.D. Bhandarkar

Oxygen Profile Evolution in NIF GDP Ablator Capsules

POSTER

Abstract

CH capsules, produced in Glow Discharge Plasma (GDP) coating, pick up oxygen continuously and irreversibly during storage. The added \hbox{x-ray} opacity from this oxygen affects the shock velocity during target implosion, requiring compensation in the shock timing. We developed a radiography technique that non-destructively characterizes the oxygen profile and have used it to track the evolution of the oxygen profiles in storage. Modified storage protocols have reduced the amount of pickup, and our database allows anticipation of the oxygen profile at shot time. The impact on target implosion will be discussed.

^*This work supported in part by the US Department of Energy under DE-AC52-06NA27279 and DE-AC52-07NA27344.

Authors

H. Huang
- General Atomics
D.M. Haas
- General Atomics
J.J. Wu
- General Atomics
R.B. Stephens
- General Atomics
- GA
K.A. Moreno
- General Atomics
A. Nikroo
- General Atomics
J.D. Salmonson
- Lawrence Livermore National Laboratory
Steven Haan
- Lawrence Livermore National Laboratory
M. Stadermann
- Lawrence Livermore National Laboratory
S.D. Bhandarkar
- Lawrence Livermore National Laboratory