Title :
Self-sustained self-sputtering: a possible mechanism for the superdense glow phase of a pseudospark
Author :
Anders, Andre ; Anders, Simone ; Gundersen, Martin A. ; Martsinovskii, Artemiy M.
Author_Institution :
Lawrence Berkeley Lab., CA, USA
fDate :
6/1/1995 12:00:00 AM
Abstract :
Self-sustained self-sputtering occurring during high current pseudospark operation (≈104 A/cm2, I>103 A) is shown to be a possible mechanism for the superdense glow. The mean-free-path for ionization of cathode material sputtered in the low-current hollow-cathode phase can be shorter than the cathode-anode gap distance, and ionized atoms can return to the cathode surface, self-sputtering with a yield greater than one. The self-sputtered cathode atoms become ionized in the beam of electrons accelerated in the cathode sheath. A large fraction of the discharge current at the cathode surface can be carried uniformly over the surface by ions and a very high electron emission density is not required to maintain the high current
Keywords :
cathodes; electron emission; glow discharges; ionisation; plasma sheaths; sparks; sputtering; cathode material ionization; cathode sheath; cathode surface; electron emission density; high current pseudospark operation; low-current hollow-cathode phase; mean-free-path; self-sustained self-sputtering; superdense glow phase; Cathodes; Current density; Electron beams; Electron emission; Geometry; Glow discharges; Heating; Ionization; Particle beams; Surface discharges;
Journal_Title :
Plasma Science, IEEE Transactions on
