Controlling the Plasma Flow in the Miniaturized Cylindrical Hall Thruster

Author

Smirnov, A. ; Raitses, Y. ; Fisch, N.J.

Author_Institution

Alpha Energy Inc., Foothill Ranch, CA

Volume

36

Issue

5

fYear

2008

Firstpage

1998

Lastpage

2003

Abstract

A substantial narrowing of the plume of the cylindrical Hall thruster (CHT) was observed upon the enhancement of the electron emission from the hollow-cathode discharge, which implies the possibility for the thruster efficiency increase due to the ion-beam focusing. It is demonstrated that the miniaturized CHT can be operated in the non-self-sustained regime, with the discharge current being controlled by the cathode electron emission. The thruster operation in this mode greatly expands the range of the plasma and discharge parameters normally accessible for the CHT. The observed variation of the plasma potential, electron temperature, and plasma density with the cathode current in the non-self-sustained regime points to the fact that the cathode discharge can affect the electron cross-field transport in the CHT plasma.

Keywords

Langmuir probes; aerospace propulsion; electric propulsion; magnetic mirrors; plasma density; plasma devices; plasma magnetohydrodynamics; plasma temperature; plasma transport processes; CHT plume; Langmuir probe; discharge current; electric propulsion device; electron cross-field transport; electron emission; electron temperature; hollow-cathode discharge; ion-beam focusing; magnetic mirror; miniaturized cylindrical Hall thruster; nonself-sustained regime; plasma density; plasma flow; plasma potential; thruster efficiency; Cross-field discharge; Langmuir probe; magnetic mirror; plasma thruster;

fLanguage

English

Journal_Title

Plasma Science, IEEE Transactions on

Publisher

ieee

ISSN

0093-3813

Type

jour

DOI

10.1109/TPS.2008.2002148

Filename

4639494