NIF Convergent Ablator Performance Measurements

Frederick Seguin; D.G. Hicks; Otto Landen; Brian Spears; Rick Olson; David Braun; Debbie Callahan; Gilbert Collins; Johan Frenje; Stephan Friedrich; Fred Girard; Steve Glenn; Robert Heeter; Joe Holder; Laurent Jacquet; John Kline; Andrew MacPhee; Nathan Meezan; Richard Petrasso; Hans Rinderknecht; Doug Wilson; Alex Zylstra

NIF Convergent Ablator Performance Measurements

ORAL

Abstract

Assessing the ablator performance around the time of peak implosion velocity is an important step towards achieving ignition. Using x-ray radiography the time-resolved velocity, mass, and areal density of the remaining unablated shell were measured near peak velocity on NIF implosions. With the simple rocket model this allowed the ablation pressure and mass ablation rate to be estimated. Spectrally-resolved D-3He proton measurements were used to determine the combined unablated and ablated areal density. Together these information-rich diagnostics provide tight constraints on the conditions in the ablator at its maximum kinetic energy.

^*This work was performed under the auspices of the U.S.Department of Energy by Lawrence Livermore National Laboratory under Contract DE-AC52-07NA27344.

Nov. 10, 2010, 3:24 PM – Nov. 10, 2010, 3:36 PM

Authors

Frederick Seguin
- MIT
D.G. Hicks
- LLNL
Otto Landen
- LLNL
Brian Spears
- LLNL
Rick Olson
- SNL
David Braun
- LLNL
Debbie Callahan
- LLNL
Gilbert Collins
- LLNL
Johan Frenje
- MIT
Stephan Friedrich
- LLNL
Fred Girard
- CEA
Steve Glenn
- LLNL
Robert Heeter
- LLNL
Joe Holder
- LLNL
Laurent Jacquet
- CEA
John Kline
- LANL
Andrew MacPhee
- LLNL
Nathan Meezan
- LLNL
Richard Petrasso
- MIT
Hans Rinderknecht
- MIT
Doug Wilson
- LANL
Alex Zylstra
- MIT