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
The technical feasibility of accomplishing a variety of cost-effective missions to the satellites of...
International audienceThe science operations of the spacecraft and remote sensing instruments for th...
International audienceThe science operations of the spacecraft and remote sensing instruments for th...
The Martian satellites Phobos and Deimos hold many unanswered questions that may provide clues to th...
As humanity looks to the Cislunar region in recent space flight operations, the question remains: wh...
After 40 years of solar system exploration by spacecraft, the origin of Mars's satellites, remains v...
The feasibility of a satellite rendezvous, landing, and roving mission to the Martian satellites Pho...
AbstractWe review the previous exploration of Phobos and Deimos by spacecraft. The first close-up im...
The science operations of the spacecraft and remote sensing instruments for the Martian Moon eXplora...
Combined missions to Mars and Phobos/Deimos were considered in relation to large scientific returns ...
This study developed, analyzed, and compared mission architectures for human exploration of Mars' mo...
NASA has conducted a series of mission studies over the past 25 years examining the eventual explora...
This study developed, analyzed, and compared mission architectures for human exploration of Mars' Mo...
International audienceThe science operations of the spacecraft and remote sensing instruments for th...
The human exploration of Mars represents one of civilizations next major challenges and is an enterp...
The technical feasibility of accomplishing a variety of cost-effective missions to the satellites of...
International audienceThe science operations of the spacecraft and remote sensing instruments for th...
International audienceThe science operations of the spacecraft and remote sensing instruments for th...
The Martian satellites Phobos and Deimos hold many unanswered questions that may provide clues to th...
As humanity looks to the Cislunar region in recent space flight operations, the question remains: wh...
After 40 years of solar system exploration by spacecraft, the origin of Mars's satellites, remains v...
The feasibility of a satellite rendezvous, landing, and roving mission to the Martian satellites Pho...
AbstractWe review the previous exploration of Phobos and Deimos by spacecraft. The first close-up im...
The science operations of the spacecraft and remote sensing instruments for the Martian Moon eXplora...
Combined missions to Mars and Phobos/Deimos were considered in relation to large scientific returns ...
This study developed, analyzed, and compared mission architectures for human exploration of Mars' mo...
NASA has conducted a series of mission studies over the past 25 years examining the eventual explora...
This study developed, analyzed, and compared mission architectures for human exploration of Mars' Mo...
International audienceThe science operations of the spacecraft and remote sensing instruments for th...
The human exploration of Mars represents one of civilizations next major challenges and is an enterp...
The technical feasibility of accomplishing a variety of cost-effective missions to the satellites of...
International audienceThe science operations of the spacecraft and remote sensing instruments for th...
International audienceThe science operations of the spacecraft and remote sensing instruments for th...