Advanced Space Technologies in Space Science Missions - Space VLBI Mission ASTRO-G Project as an Example -

Hirobumi SAITO; Shin-ichiro SAKAI; Ken HIGUCHI; Naoko KISHIMOTO; Hiroshi TAKEUCHI; Keisuke YOSHIHARA; Yoshiharu ASAKI; Masato TSUBOI; Yasuhiro MURATA; Hideyuki KOBAYASHI

doi:10.2322/tastj.8.To_4_33

o-4) Innovation in Space Mission and Control Engineering

Advanced Space Technologies in Space Science Missions - Space VLBI Mission ASTRO-G Project as an Example -

Hirobumi SAITO, Shin-ichiro SAKAI, Ken HIGUCHI, Naoko KISHIMOTO, Hiroshi TAKEUCHI, Keisuke YOSHIHARA, Yoshiharu ASAKI, Masato TSUBOI, Yasuhiro MURATA, Hideyuki KOBAYASHI

著者情報

キーワード: Space VLBI, VLBI, Radio Astronomy, High Angular Resolution

ジャーナルフリー

2010 年 8 巻 ists27 号 p. To_4_33-To_4_41

DOI https://doi.org/10.2322/tastj.8.To_4_33

詳細

抄録

Space VLBI (very long baseline interferometry) mission, ASTRO-G, will be launched in 2013 by Japan Aerospace Exploration Agency (JAXA). ASTRO-G is a follow-on mission of HALCA (VSOP) mission in 1990s, which was the world first space VLBI mission. ASTRO-G will consists of a huge synthetic aperture with diameter of 35,000 Km together with radio antennas in the ground. They will achieve the world highest angular resolution imaging by means of 43 GHz observation. This paper describes the advanced key technologies of ASTRO-G such as the 9 m deployable antenna with very accurate surface, the fast rest - to - rest attitude maneuver, and the precision orbit determination above NAVSTAR's orbits. These advance technologies lead ASTRO-G mission to the astronomical observation with the world highest angular resolution.

責任著者(Corresponding author)

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