Title :
Plasma expansion and current flow in a vacuum arc with a small anode
Author :
Beilis, Isak I. ; Keidar, Michael ; Boxman, Raymond L. ; Goldsmith, Samuel
Author_Institution :
Lab. of Electr. Discharge & Plasma, Tel Aviv Univ., Israel
fDate :
8/1/1999 12:00:00 AM
Abstract :
A low-density plasma flow in a vacuum arc with a small anode, which intercepts only part of the cathodic plasma jet, was studied theoretically using a two-dimensional approximation. The plasma expansion was modeled using the sourceless steady-state hydrodynamic equations, where the free boundary of the plasma was determined by a self-consistent solution of the gasdynamic and electrical current equations. Magnetic forces from the azimuthal self-magnetic field were taken into account. The influence of the ratio of the anode radius to initial plasma jet radius on the plasma density, velocity, current distribution, and anode sheath potential drop is analyzed. It is shown that the mass and current flow in a 500 A arc are compressed near the axis. This leads to an increase in the plasma density by a factor of two and in the axial current density by a factor of 1.5
Keywords :
anodes; magnetic forces; plasma density; plasma flow; plasma jets; plasma transport processes; vacuum arcs; anode radius; anode sheath potential drop; anode voltage; arc current compression; axial current density; azimuthal self-magnetic field; cathodic plasma jet; current distribution; current flow; electrical current equations; free boundary; gasdynamic equations; initial plasma jet radius; low-density plasma flow; magnetic forces; mass flow; plasma density; plasma expansion; self-consistent solution; small anode; sourceless steady-state hydrodynamic equations; two-dimensional approximation; vacuum arc; velocity; Anodes; Current distribution; Equations; Hydrodynamics; Magnetic forces; Plasma density; Plasma sheaths; Plasma sources; Steady-state; Vacuum arcs;
Journal_Title :
Plasma Science, IEEE Transactions on
