ADVANTAGES OF SEARCHING FOR ASTEROIDS FROM LOW EARTH ORBIT: THE NEOSSat MISSION

Space-based observatories have several advantages over ground-based observatories in searching for asteroids and comets. In particular, the Aten and Interior to Earth’s Orbit (IEO) asteroid classes may be efficiently sought at low solar elongations along the ecliptic plane. A telescope in low Earth...

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Veröffentlicht in:Discover Space Jg. 95; H. 1-4; S. 33 - 40
Hauptverfasser: HILDEBRAND, A. R, CARROLL, K. A, TEDESCO, E. F, FABER, D. R, CARDINAL, R. D, MATTHEWS, J. M, KUSCHNIG, R, WALKER, G. A. H, GLADMAN, B, PAZDER, J, BROWN, P. G, LARSON, S. M, WORDEN, S. P, WALLACE, B. J, CHODAS, P. W, MUINONEN, K, CHENG, A
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Dordrecht Springer Nature B.V 01.12.2004
Schlagworte:
Advantages
Asteroid missions
Asteroids
Comets
Earth orbits
Ground-based observation
Low earth orbits
Microsatellites
Near-Earth Objects
Observatories
Parallax
Satellites
Searching
Space surveillance
Telescopes
ISSN:2948-2941, 2948-295X
Online-Zugang:Volltext
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Zusammenfassung:Space-based observatories have several advantages over ground-based observatories in searching for asteroids and comets. In particular, the Aten and Interior to Earth’s Orbit (IEO) asteroid classes may be efficiently sought at low solar elongations along the ecliptic plane. A telescope in low Earth orbit has a sufficiently long orbital baseline to determine the parallax for all Aten and IEO class asteroids discovered with this observing strategy. The Near Earth Object Space Surveillance Satellite (NEOSSat) mission will launch a microsatellite to exploit this observing strategy complementing ground-based search programmes.
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ISSN:2948-2941
2948-295X
DOI:10.1007/s11038-005-9016-z