Title :
Active Spacecraft Potential Control for the Magnetospheric Multiscale Mission
Author :
Torkar, Klaus ; Tajmar, Martin ; Escoubet, C. Philippe ; Svenes, Knut
Author_Institution :
Space Res. Inst., Graz, Austria
Abstract :
The NASA Magnetospheric Multiscale (MMS) mission to be launched in 2014 is going to study events of magnetic reconnection in the Earth´s magnetosphere by means of four observatories in close formation on near-equatorial orbits. The required highly accurate and undisturbed plasma and electric field measurements will be supported by an actively controlled spacecraft potential provided by Active Spacecraft Potential Control (ASPOC) instruments. ASPOC uses capillary-type liquid metal ion sources with indium as the source material to generate ion beams. Two instruments per spacecraft will generate beams in antiparallel direction. The instruments for MMS will be based on heritage from the ESA Cluster and Double Star missions, but several significant changes and improvements to accommodate the requirements of the new mission have been implemented.
Keywords :
aerospace control; atmospheric electricity; atmospheric measuring apparatus; atmospheric techniques; ion beam applications; magnetic reconnection; magnetosphere; remote sensing by laser beam; space vehicles; ASPOC instrument; Active Spacecraft Potential Control instrument; Double Star mission; ESA Cluster mission; Earth magnetosphere; NASA Magnetospheric Multiscale mission; capillary-type liquid metal ion source; electric field measurement; indium; ion beam generation; magnetic reconnection; near-equatorial orbit; plasma measurement; source material; Electric potential; IEEE Potentials; Instruments; Ion beams; Plasma measurements; Plasmas; Space vehicles; Extraterrestrial measurements; ion beam applications; ion emission; ion sources; satellite applications; space technology; space vehicle control;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2011.2178867
