Nonstop Mars sample return system using aerocapture technologies
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Authors
Fujita, Kazuhisa
Tachibana, Shogo
Sugita, Seiji
Miyamoto, Hirdy
Mikouchi, Takashi
Suzuki, Toshiyuki
Takayanagi, Hiroki
Ozawa, Takashi
Kawaguchi, Jun Ichiro
Woo, Hanwool
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American Institute of Aeronautics and Astronautics Inc.
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Abstract
In this study, preliminary assessment of a Martian nonstop sample return system is made as a part of Mars Exploration with Landers and Orbiters (MELOS) mission, which is currently under investigation in Japan Aerospace Exploration Agency. In a mission scenario, an atmospheric entry vehicle of aero-maneuver ability is flown into the Martian atmosphere, collects the Martian dust particles and atmospheric gases during the hypersonic atmospheric flight, exits the Martian atmosphere, and is inserted into a parking orbit from which a return system departs for the earth. In order to accomplish controlled flight and successful orbit insertion, aerocapture technologies are introduced into the vehicle guidance and control system. A conceptual design is obtained as a result of the preliminary system analysis.
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Book Title
AIAA Atmospheric Flight Mechanics Conference
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Publication