Title :
Impact of discharge chamber geometry on characteristics of a low-power Hall thruster
Author :
Mazouffre, S. ; Dannenmayer, K. ; Bourgeois, G. ; Lejeune, A. ; Guyot, M. ; Denise, S. ; Renaudin, P. ; Cagan, V.
Author_Institution :
CARE Inst., CNRS, Orléans, France
Abstract :
A 200 W permanent-magnet Hall thruster - named PPI for “Petit Propulseur Innovant” - has been operated with xenon for three values of the channel width. The mean channel diameter, the channel length and the magnetic field topology stay fixed. Series of experiments have been carried out for each geometry over a broad set of propellant mass flow rates and applied voltages to investigate the impact of a channel width variation on discharge properties. The ion current was measured in the plume far field by means of a planar Faraday probe. The equilibrium temperature of inner and outer Al2O3 channel walls was determined by means of calibrated thermal imaging. Finally, the ion velocity was measured by laser-induced fluorescence spectroscopy at 834 nm along the channel centerline.
Keywords :
aerospace propulsion; fluorescence spectroscopy; permanent magnets; propellants; PPI; Petit Propulseur Innovant; calibrated thermal imaging; discharge chamber geometry; ion velocity; laser-induced fluorescence spectroscopy; low-power Hall thruster; magnetic field topology; mean channel diameter; permanent-magnet Hall thruster; planar Faraday probe; power 200 W; propellant mass flow rates; size 834 nm; Discharges; Geometry; Magnetic fields; Plasma temperature; Probes; Propulsion; Xenon; Hall thruster; electric propulsion; geometry;
Conference_Titel :
Recent Advances in Space Technologies (RAST), 2011 5th International Conference on
Conference_Location :
Istanbul
Print_ISBN :
978-1-4244-9617-4
DOI :
10.1109/RAST.2011.5966939
