Trajectory Design for the Phobos and Deimos & Mars Environment Spacecraft | Zendy

Anthony L. Genova | Zendy; David Korsmeyer | Zendy; Mike Loucks | Zendy; Fan Yang | Zendy; Pascal Lee | Zendy

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Trajectory Design for the Phobos and Deimos & Mars Environment Spacecraft

Author(s) -

Anthony L. Genova,

David Korsmeyer,

Mike Loucks,

Fan Yang,

Pascal Lee

Publication year - 2016

Publication title -

aiaa/aas astrodynamics specialist conference

Language(s) - English

Resource type - Conference proceedings

DOI - 10.2514/6.2016-5681

Subject(s) - mars exploration program , spacecraft , astrobiology , exploration of mars , mars landing , aerospace engineering , trajectory , spacecraft design , computer science , environmental science , physics , engineering , astronomy

The presented trajectory design and analysis was performed for the Phobos and Deimos & Mars Environment (PADME) mission concept as part of a NASA proposal submission managed by NASA Ames Research Center in the 2014-2015 timeframe. The PADME spacecraft would be a derivative of the successfully flown Lunar Atmosphere & Dust Environment Explorer (LADEE) spacecraft. While LADEE was designed to enter low-lunar orbit, the PADME spacecraft would instead enter an elliptical Mars orbit of 2-week period. This Mars orbit would pass by Phobos near periapsis on successive orbits and then raise periapsis to yield close approaches of Deimos every orbit thereafter.

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