11th International Conference on Open Magnetic Systems for Plasma Confinement

Expansion of dense plasma formed on solid target exposed to focused electron beam

10 Aug 2016, 15:00

3h

Novosibirsk

Board: 24

Poster Plasma-wall interaction Poster session

Speaker

Dr Dmitriy Skovorodin (Budker INP SB RAS)

Description

Performance of flash radiography units implies a high spatial resolution. Thus, focused electron beams are utilized to produce bremsstrahlung x-ray at the solid target. It results in the strong heating of the target up to 1-10 eV temperature and formation of dense plasma. The plasma expands into vacuum after the pulse of electron beam. In case of multi-pulse operation mode of radiography unit the plasma produced by the first pulse can strongly affect subsequent pulses. The interaction of electron beam with plasma cloud strongly depends on its electron density. Although the plasma is highly ionized at first moment it cools down adiabatically during expansion. Thus the plasma should recombine rapidly according to Saha equation. However the recombination rate decreases because of plasma expansion and the degree of ionization could be frozen. In present work we utilize the model of Zeldovich and Raizer to estimate the electron density in the target plasma. The typical parameters of radiography units based on linear induction accelerators is considered. It is shown that electron density in plasma expanding after first pulse is high enough to affect subsequent electron beams.

Peer reviewing

Paper

Accepted on 13 Sep 2016 by Anton Sudnikov

sample.pdf