Load Designs For MJ Dense Plasma Foci

Anthony Link; A. Povlius; R. Anaya; M. G. Anderson; J. R. Angus; C. M. Cooper; S. Falabella; D. Goerz; D. Higginson; I. Holod; M. McMahon; J. Mitrani; E.S. Koh; A. Pearson; Y. A. Podpaly; R. Prasad; D. Van Lue; J. Watson; A. E. Schmidt

Load Designs For MJ Dense Plasma Foci

POSTER

Abstract

Dense plasma focus (DPF) Z-pinches are compact pulse power driven devices with coaxial electrodes. The discharge of DPF consists of three distinct phases: first generation of a plasma sheath, plasma rail gun phase where the sheath is accelerated down the electrodes and finally an implosion phase where the plasma stagnates into a z-pinch geometry. During the z-pinch phase, DPFs can produce MeV ion beams, x-rays and neutrons. Megaampere class DPFs with deuterium fills have demonstrated neutron yields in the 10$^{\mathrm{12}}$ neutrons/shot range with pulse durations of 10-100 ns. Kinetic simulations using the code Chicago are being used to evaluate various load configurations from initial sheath formation to the final z-pinch phase for DPFs with up to 5 MA and 1 MJ coupled to the load. Results will be presented from the preliminary design simulations. LLNL-ABS-734785

^*This work performed under the auspices of the U.S. Department of Energy by Lawrence Livermore National Laboratory (LLNL) under Contract DE-AC52-07NA27344 and with support from the Computing Grand Challenge program at LLNL.

Authors

Anthony Link
- Lawrence Livermore Natl Lab
- Lawrence Livermore National Lab
- LLNL
A. Povlius
- LLNL
R. Anaya
- LLNL
M. G. Anderson
- LLNL
J. R. Angus
- LLNL
C. M. Cooper
- LLNL
S. Falabella
- LLNL
D. Goerz
- Goerz Engineering Solutions LLCGoerz Engineering Solutions LLC
D. Higginson
- LLNL
I. Holod
- LLNL
M. McMahon
- LLNL
J. Mitrani
- LLNL
E.S. Koh
- LLNL
A. Pearson
- LLNL
Y. A. Podpaly
- LLNL
R. Prasad
- LLNL
D. Van Lue
- LLNL
J. Watson
- LLNL
A. E. Schmidt
- LLNL