The Solar Mass-Ejection Imager (SMEI) Mission

The Solar Mass-Ejection Imager (SMEI) Mission

We have launched into near-Earth orbit a solar mass-ejection imager (SMEI) that is capable of measuring sunlight Thomson-scattered from heliospheric electrons from elongations to as close as 18^sup ^ to greater than 90^sup ^ from the Sun. SMEI is designed to observe time-varying heliospheric brightn...

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Veröffentlicht in:Solar physics 2004-11, Vol.225 (1), p.177-207
Hauptverfasser: Jackson, B V, Buffington, A, Hick, P P, Altrock, R C, Figueroa, S, Holladay, P E, Johnston, J C, Kahler, S W, Mozer, J B, Price, S, Radick, R R, Sagalyn, R, Sinclair, D, Simnett, G M, Eyles, C J, Cooke, M P, Tappin, S J, Kuchar, T, Mizuno, D, Webb, D F, Anderson, P A, Keil, S L, Gold, R E, Waltham, N R
Format: Artikel
Sprache:eng
Schlagworte:
Earth orbits
Photometers
Shock waves
Solar flares
Solar physics
Spacecraft
Sun
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Zusammenfassung:We have launched into near-Earth orbit a solar mass-ejection imager (SMEI) that is capable of measuring sunlight Thomson-scattered from heliospheric electrons from elongations to as close as 18^sup ^ to greater than 90^sup ^ from the Sun. SMEI is designed to observe time-varying heliospheric brightness of objects such as coronal mass ejections, co-rotating structures and shock waves. The instrument evolved from the heliospheric imaging capability demonstrated by the zodiacal light photometers of the Helios spacecraft. A near-Earth imager can provide up to three days warning of the arrival of a mass ejection from the Sun. In combination with other imaging instruments in deep space, or alone by making some simple assumptions about the outward flow of the solar wind, SMEI can provide a three-dimensional reconstruction of the surrounding heliospheric density structures.[PUBLICATION ABSTRACT]
ISSN:0038-0938
1573-093X
DOI:10.1007/s11207-004-2766-3