Title :
Explosive plasma formation on surfaces caused by unipolar arcing
Abstract :
Summary form only given. Using a laser-produced plasma it has been demonstrated that unipolar arcs ignite and burn on a nanosecond time scale without any external electric field being applied. Micron-sized arcs burn between the plasma and a metal surface driven by local variations of the sheath potential. Locally, the surface forms both electron-emitting cathode spots and, surrounding the spot, electron-receiving anode areas. Similar unipolar arc craters have been observed on the cathode surface of a pulsed vacuum diode. Experimental results show that cathode spots are formed by unipolar arcing. The localized buildup of plasma above an electron-emitting spot naturally leads to an electric field distribution which drives the unipolar arc. The high current density of a unipolar arc provides explosive plasma formation
Keywords :
arcs (electric); current density; explosions; ignition; plasma production and heating by laser beam; plasma sheaths; surface discharges; burning; cathode surface; electric field distribution; electron-emitting cathode spots; electron-receiving anode areas; ignition; laser-produced plasma; metal surface; nanosecond time scale; pulsed vacuum diode; sheath potential; unipolar arc craters; unipolar arcing; unipolar arcs;
Conference_Titel :
Plasma Science, 1990. IEEE Conference Record - Abstracts., 1990 IEEE International Conference on
Conference_Location :
Oakland, CA, USA
DOI :
10.1109/PLASMA.1990.110617
