With this new member, the group of Trojans that accompany Mars has increased in number to 17. But it shows differences in its orbit and chemical composition which may indicate that it is a captured asteroid, of a primitive type. The results are published in Astronomy & Astrophysics.
A team from the Instituto de Astrofísica de Canarias (IAC) and the Universidad Complutense de Madrid (UCM) has observed and described for the first time the object 2023 FW14, a Trojan asteroid that shares its orbit with Mars. After Jupiter, the red planet has the largest number of known Trojans, totalling 17 with this new identification.
The Trojan asteroids are small bodies in the solar system that share the orbit of a planet, occupying one of the points of stable equilibrium called the Lagrange points, situated 60º in front of (L4) and 60º behind (L5) the planet.
Although the majority of the Martian asteroids seem to have accompanied the planet since the epoch of its formation, 2023 FW14 arrived at its Trojan trajectory around a million years ago, and it may leave it in some 10 million years, according to the numerical results obtained by the study.
"While the orbital evolution of the 16 previously known Trojans shows long-term stability, the orbit of the new one is not stable," explains Raul de la Fuente Marcos, a researcher in the Department of Earth Science and Astrophysics at the UCM, who has led the study. "There are two possibilities for its origin: it could be a fragment of the Trojan 1999 UJ7, or it may have been captured from the population of asteroids close to the Earth that cross the orbit of Mars."
"Although the spectrum of 2023 FW14 obtained with the GTC is somewhat different from that of the other L4 Trojan 1999 UJ7, both of them belong to the same composition group, they are asteroids of a primitive type, in contrast to the L5 Trojans, all of them rocky and rich in silicates," says Julia de León, an IAC researcher, and co-author of the article.
Increasing the number of known Martian Trojans allows researchers to deepen their understanding of these objects, whose existence was first predicted from mathematical calculations. "Studying real Trojans rather than only those predicted mathematically allows us to test the reliability of our theoretical models," concludes de la Fuente Marcos.
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