Influence of Cathode Shape on Vacuum Arc Thruster Performance and Operation

Author

Lun, Jonathan ; Law, Craig

Author_Institution

South African Nat. Space Agency, Hermanus, South Africa

Volume

43

Issue

1

fYear

2015

fDate

Jan. 2015

Firstpage

198

Lastpage

208

Abstract

Vacuum arc thrusters (VATs) are a potentially useful technology for use as microthrusters, given their simplicity, low mass, and low-power requirements. However, further development is still needed to improve and mature their performance and operation. In an effort to improve thruster characteristics, we investigate the use of conically shaped convergent cathode surface profiles in a low-power coaxial VAT design. Experimental measurements of ion current density distribution, thrust, and erosion rate were taken for a range of cathode profiles and materials. Results show that modifying the profile of the cathode face can affect the plasma jet´s plume distribution and even improve thrust production in certain cases. One likely cause of the thrust improvement is speculated to be increased charge exchange collisions resulting in a lower average ion charge state of the ejecting plasma.

Keywords

aerospace propulsion; cathodes; current density; current distribution; plasma jets; vacuum arcs; average ion charge state; conically shaped convergent cathode surface profiles; erosion rate; low-power coaxial VAT design; microthrusters; of ion current density distribution; plasma jet plume distribution; thrust production; vacuum arc thruster performance; Cathodes; Current measurement; Plasmas; Probes; Shape; Vacuum arcs; Cathode; diagnostics; ion charge state; ion current density distribution (ICDD); microthruster; plasma jet; propulsion; pulsed power; thrust stand; vacuum arc thruster (VAT); vacuum arc thruster (VAT).;

fLanguage

English

Journal_Title

Plasma Science, IEEE Transactions on

Publisher

ieee

ISSN

0093-3813

Type

jour

DOI

10.1109/TPS.2014.2361439

Filename

6923453