English

Laboratory plasma physics experiments using merging supersonic plasma jets

Plasma Physics 2019-02-20 v3

Abstract

We describe a laboratory plasma physics experiment at Los Alamos National Laboratory that uses two merging supersonic plasma jets formed and launched by pulsed-power-driven rail guns. The jets can be formed using any atomic species or mixture available in a compressed-gas bottle and have the following nominal initial parameters at the railgun nozzle exit: neni1016n_e\approx n_i \sim 10^{16} cm3^{-3}, TeTi1.4T_e \approx T_i \approx 1.4 eV, Vjet30V_{\rm jet}\approx 30-100 km/s, mean charge Zˉ1\bar{Z}\approx 1, sonic Mach number MsVjet/Cs>10M_s\equiv V_{\rm jet}/C_s>10, jet diameter =5=5 cm, and jet length 20\approx 20 cm. Experiments to date have focused on the study of merging-jet dynamics and the shocks that form as a result of the interaction, in both collisional and collisionless regimes with respect to the inter-jet classical ion mean free path, and with and without an applied magnetic field. However, many other studies are also possible, as discussed in this paper.

Keywords

Cite

@article{arxiv.1408.0323,
  title  = {Laboratory plasma physics experiments using merging supersonic plasma jets},
  author = {S. C. Hsu and A. L. Moser and E. C. Merritt and C. S. Adams and J. P. Dunn and S. Brockington and A. Case and M. Gilmore and A. G. Lynn and S. J. Messer and F. D. Witherspoon},
  journal= {arXiv preprint arXiv:1408.0323},
  year   = {2019}
}

Comments

12 pages, 3 figures, 3 tables; published in J. Plasma Physics

R2 v1 2026-06-22T05:18:51.702Z