Title :
Propagation of vacuum arc plasma beam in a toroidal filter
Author :
Alterkop, Boris A. ; Zhitomirsky, Vladimir N. ; Goldsmith, Samuel ; Boxman, Raymond L.
fDate :
12/1/1996 12:00:00 AM
Abstract :
An analytical solution to the problem of plasma beam transport in a toroidal magnetic filter for unmagnetized ions is derived. A two-fluid model taking into account electromagnetic and pressure forces, electron-ion collisions, magnetic force line curvature, and radial dependence of centrifugal force is used. From comparison with experimental data it is shown that the obtained solution describes well the main properties of plasma beam behavior in the filter, e.g. (1) the relative value of the ion current along the torus decreases exponentially, (2) the deflection of the plasma beam from the center of the torus correlates with the centrifugal drift of the plasma beam across a magnetic field, and (3) experiment and theory agree well on the weak correlation between magnetic field strength and filter efficiency
Keywords :
filters; plasma collision processes; plasma density; plasma jets; plasma magnetohydrodynamics; plasma toroidal confinement; vacuum arcs; beam deflection; centrifugal drift; centrifugal force; electromagnetic forces; electron-ion collisions; filter efficiency; ion current; magnetic field strength; magnetic force line curvature; plasma beam; plasma beam behavior; plasma beam transport; pressure forces; radial dependence; toroidal filter; toroidal magnetic filter; two-fluid model; unmagnetized ions; vacuum arc plasma beam; Electromagnetic propagation; Filtering theory; Filters; Magnetic analysis; Magnetic separation; Particle beams; Plasma properties; Plasma transport processes; Toroidal magnetic fields; Vacuum arcs;
Journal_Title :
Plasma Science, IEEE Transactions on
