On the negative anode voltage fall of high-current vacuum arc: PIC-modelling results

Author

Shmelev, D.L. ; Barengolts, S.A. ; Tsventoukh, M.M.

Author_Institution

Inst. of Electrophys., Ekaterinburg, Russia

fYear

2014

fDate

Sept. 28 2014-Oct. 3 2014

Firstpage

313

Lastpage

316

Abstract

The numerical modelling of the interaction of vacuum arc plasma with the anode surface has been performed by PIC method. It has been found that the anode potential fall remains negative even for the electron drift velocity large than thermal velocity. Two regimes of plasma anode-surface interaction have been analyzed in modelling - a `steady-state´ one and a `turbulent´ one - with the plasma micro-instability developed. For the `steady-state´ regime approximate expressions of the anode potential fall and the energy flux have been derived from the modelling results. For the `turbulent´ regime that naturally corresponds to a large electron drift velocity, the enhancement in the negative anode potential fall as well as in the plasma electron effective temperature have been found.

Keywords

numerical analysis; plasma drift waves; plasma instability; plasma simulation; plasma turbulence; plasma-wall interactions; vacuum arcs; PIC simulation; anode surface; electron drift velocity; energy flux; high-current vacuum arc plasma; negative anode voltage; numerical model; plasma anode-surface interaction; plasma electron effective temperature; plasma microinstability; steady-state phase; thermal velocity; turbulent state; Anodes; Electric potential; Electron mobility; Numerical models; Plasma temperature; Vacuum arcs;

fLanguage

English

Publisher

ieee

Conference_Titel

Discharges and Electrical Insulation in Vacuum (ISDEIV), 2014 International Symposium on

Conference_Location

Mumbai

Print_ISBN

978-1-4799-6750-6

Type

conf

DOI

10.1109/DEIV.2014.6961682

Filename

6961682