The LIFE Dynamic Chamber System

Mark Rhodes; Jave Kane; Jeffery Latkowski; Andrew Cook; Laurent Divol; Gwendolen Loosmore; Howard Scott; Christian Scullard; Max Tabak; Scott Wilks; Gregory Moses; Thad Heltemes; Ryan Sacks; Carlos Pantano; Richard Kramer

The LIFE Dynamic Chamber System

POSTER

Abstract

Dry-wall IFE designs such as LIFE utilize Xe fill gas to protect the target chamber first wall from x-ray heating and ionic debris. A key question is how cool, settled and clean the Xe must be to permit beam propagation and target transport, and how to reach this state at a 10+ Hz shot repetition rate. Xe is at low density in the target chamber, and purified Xe is reinjected at higher density and lower temperature into the larger outer chamber. Maintenance of this density difference due to blast waves generated by implosion of the target capsules is being assessed with HYDRA and 3D VTF, and possible validation experiments are being investigated. Detailed gas response near the wall is being studied using 3D Miranda. A laboratory-scale theta pinch experiment will study cooling and beam propagation in Xe.

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

Authors

Mark Rhodes
- LLNL
Jave Kane
- LLNL
Jeffery Latkowski
- LLNL
Andrew Cook
- LLNL
Laurent Divol
- LLNL
- Lawrence Livermore National Laboratory
Gwendolen Loosmore
- LLNL
Howard Scott
- LLNL
Christian Scullard
- LLNL
Max Tabak
- Lawrence Livermore National Laboratory
- LLNL
- Lawrence LIvermore National Laboratory
Scott Wilks
- Lawrence Livermore National Laboratory
- LLNL
Gregory Moses
- U. Wisconsin
Thad Heltemes
- U. Wisconsin
Ryan Sacks
- U. Wisconsin
Carlos Pantano
- U. Illinois
Richard Kramer
- U. Illinois