The flyby on December 29 will be so close and fast that Mars Express will not be able to take any images, but instead it will yield the most accurate details yet of the moon’s gravitational field and, in turn, provide new details of its internal structure.
As the spacecraft passes close to Phobos, it will be pulled slightly off course by the moon’s gravity, which will change the spacecraft’s velocity by no more than a few centimeters per second. These small deviations will be reflected in the spacecraft’s radio signals as they are beamed back to Earth, and scientists can then translate them into measurements of the mass and density structure inside the moon.
Earlier flybys, including the previous closest approach of 42 miles (67km) in March 2010, have already suggested that the moon could be between a quarter and a third empty space — essentially a rubble pile with large gaps between the rocky blocks that make up the moon’s interior.
Knowing the structure of the roughly 17 x 14 x 11-mile (27 x 22 x 18km) Phobos will help to solve a big mystery concerning its origin and that of its more distant sibling, Deimos, which orbits Mars approximately three times farther out.
The leading theories propose that the duo are either asteroids captured by Mars or that they were born from debris thrown up from giant impacts on Mars.
In addition to probing the gravitational field of Phobos during its close approach, Mars Express will be making measurements of how the solar wind influences the moon’s surface.
“At just [28 miles] 45km from the surface, our spacecraft is passing almost within touching distance of Phobos,” said Michel Denis from ESA.
“We’ve been carrying out maneuvers every few months to put the spacecraft on track, and together with the ground stations that will be monitoring it on its close approach, we are ready to make some extremely accurate measurements at Phobos.”
Both the position of the spacecraft and the moon must be known to high precision in order to make the most accurate calculations of the moon’s internal characteristics. To improve the positional data, the spacecraft’s high-resolution stereo camera has been capturing images of Phobos set against the background star field in the weeks leading up to closest approach and will continue to do so afterwards.
Furthermore, ground stations around the world will track the spacecraft for a total of 35 hours in the lead-up to, during, and after the flyby to ensure that the position of Mars Express is precisely known.
“Mars Express entered orbit around the Red Planet exactly 10 years ago this week — this close flyby of Phobos is certainly an exciting way to celebrate!” said Olivier.