Moons Of Mars May Offer Clues To Its Violent Past

Moons of Mars
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A new theory introduces the idea that two moons Of Mars, Phobos and Deimos, were created after an intense Martian collision.

For years astronomers have been trying to determine the origin of Mars’ moons, Phobos and Deimos. The long standing argument that they were captured asteroids may fall by the wayside in lieu of a new theory.

Moons of Mars

Moons of Mars: Phobos and Deimos

Moons Of Mars: Phobos and Deimos

The biggest factor working against the asteroid theory is that the shape and trajectory of both moon’s orbits contradict the asteroid theory, but in two new studies it is shown that they may have been created from a giant collision. Researchers from the National Center for Scientific Research (CNRS) and Aix-Marseille Université have determined that the only scenario that is consistent with their surface properties is that of a huge collision, while Belgian, French, and Japanese researchers in the second study used digital simulations to show this collision.

The second study states that 100 to 800 million years after Mars’ formation, there was a collision between it and a small planet one-third Mars’ size. The debris from the impact would have generated a wide disk around the planet with the dense molten lava towards the inner part and the gaseous remnants around the outer part.

Creation of Moons

A very large object about 10 times the size of Phobos was created by the inner part of the disk which then acted as a gravitational catalyst for the outer disk to form into much smaller objects. After a few thousand years, approximately 10 smaller moons and one bigger moon surrounded Mars. Once the debris disk disappeared a few million years later, Mars’ tidal effects brought all but two small moons crashing back onto the planet. The two remaining moons of Mars are Phobos and Deimos. Phobos itself is still in a downward spiral toward Mars.

See Also: Scientists have detected oxygen on Mars!

“We reproduce quite nicely the mass and orbits of Phobos and Deimos. The only problem is that the orbit we find for Phobos may be a little too elliptical compared to current orbits,” says Sébastien Charnoz, a professor at the Université Paris Diderot.

As no one digital simulation can model the entire process, three simulations had to be combined in order to account for all the physics behind the collision. This included the dynamics of the debris disk, it formation into the satellites, and their long-term evolution.

“The difficulty was to simulate the full process, from the impact, then after the accretion of moons, then the long term dynamical evolution of moons and fall onto Mars,” says Charnoz. “It is why we had to combine three simulations of different types. So this was a numerical challenge.” 

Moons of Mars

Mars Has the Biggest, Most Violent Dust Storms in the Solar System

Effects of Borealis Basin

In the first study, the asteroid theory was ruled out based solely on the compositional diversity of the asteroid belt. The light signatures emitted by both Phobos and Deimos determine that they could not have been created from the primordial matter that created Mars (meteorites such as ordinary chondrite). The light signature shows the satellites are made of fine-grained dust.

See Also: Nasa Just Found A Completely Unexpected Mineral On Mars

These small grains on the moon’s surface cannot only be there due to interplanetary dust so they must have been made up of very fine grains since the beginning. Phobos and Deimos could have only been created in the outer gaseous section of the debris disk and not the inner portion. Both studies are in agreement on this idea.

Both of these studies explain the difference in altitude between the northern and southern hemispheres on Mars as the Borealis basin (which is on the northern hemisphere) is the most likely candidate for the remnants of the impact.

“Our next step is to do high resolution simulations of mars impacts, as the structure of the debris disk formed after the impact is rather uncertain and we had to do some hypothesis on it,” says Charnoz. “Only high resolution simulations with 10 millions particles can solve the problem.”

Future Missions to Moons of Mars

Japan’s space agency (JAXA) will launch a mission in 2022 named the Mars Moons Exploration (MMX) that will bring back samples from Phobos in 2027. The European Space Agency (ESA) and the Russian space agency (Roscosmos) are working together to launch a similar mission in 2024, Phobos-Soil. These observations may make it possible to determine the age and composition of moons of Mars and help validate this hypothesis.

“On a more distant future only space missions to Phobos with sample return will definitively decipher their origin,” says Charnoz.

So what do you think of this news? Let us know your thoughts in the comments below. And be sure to subscribe to our website for more awesome posts like this.

See Also: 7 Fascinating Yet Unanswered Questions About Mars!

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