Title :
A hydrodynamic model of vacuum arc plasmas
Author :
Hantzsche, Erhard
Author_Institution :
Inst. of Plasma Phys. Garching, Germany
fDate :
2/1/1992 12:00:00 AM
Abstract :
The properties of plasmas expanding from cathode spots of vacuum arcs are calculated with a one-dimensional two-fluid model. The system of simplified hydrodynamic equations can be solved under stationary conditions using asymptotic power series. Although necessarily only an approximation, such analytical solutions prove to be advantageous compared with numerical integrations. All the plasma parameters are functions of (I/r)2/5 (current, I: distance, r). The three forces accelerating the ions to high kinetic energies are quantitatively calculable: the electric field, the ion pressure gradient, and the electron-ion friction. The potential is decreasing towards the anode, and the residence of the plasma is negative. The ion temperature reaches only about 35% of the electron temperature. Although only asymptotic, the solution is suited to describe the arc plasma in a sufficient manner all over the expansion region
Keywords :
arcs (electric); friction; plasma flow; plasma pressure; plasma simulation; plasma temperature; asymptotic power series; cathode spots; electric field; electron temperature; electron-ion friction; hydrodynamic equations; ion acceleration; ion pressure gradient; ion temperature; one-dimensional two-fluid model; plasma parameters; potential; residence; stationary conditions; vacuum arc plasmas; Acceleration; Cathodes; Equations; Hydrodynamics; Kinetic energy; Plasma accelerators; Plasma properties; Plasma temperature; Power system modeling; Vacuum arcs;
Journal_Title :
Plasma Science, IEEE Transactions on
