Kamooalewa

If everything goes according to schedule, the Chinese Tianwen-2 mission will be about to arrive at Kamo’oalewa, the co-orbital object on Earth to which it is heading to discern once and for all whether it is an asteroid or a lunar fragment. Actually this It is not the only coorbital on our planet. There are other objects that take exactly the same time as us to go around the Sun, so they can be said to be our traveling companions. However. z Kamo’oalewa has been one of the best characterized since it was discovered in 2016. Since then, European and American scientists have been striving to find out its origin, leaving the balance more tilted on some occasions towards the lunar fragment and on others towards the asteroid. But it is clear that to have a definitive answer we need to analyze samples of its surface. In order to obtain them, China jumped to the rescue. A mission to answer once and for all. The Tianwen-2 mission was launched in May 2025 bound for Kamo’oalewa. In the next few days it should reach the satellite, to start taking samples next month. The samples will later make the return journey and land on our planet in 2027 so that scientists at the Chinese Academy of Sciences can investigate them. Then we will finally know where our traveling companion comes from. Two hypotheses, many changes of opinion. Kamo’oalewa was first observed in April 2016, thanks to the Pan-STARRS telescope at the Haleakala Observatory in Hawaii. That same year, a team of European scientists made his first characterization. Thanks to them we had very specific information about this object. For example, its orbit was calculated and its thermal inertia was analyzed. That is, the speed with which its surface responds to changes in temperature. After that characterization, further investigations were carried out at the Arizona Planetary Science Institute. From those analyzes two hypotheses emerged for its origin: it could be an asteroid that escaped from the asteroid belt or a fragment of the Moon that jumped from there due to a large impact. This last hypothesis arose from spectroscopic observations made with the Large Binocular Telescope (LBT) and the Lowell Discovery Telescope (LDT). The spectra indicated that this object is very rich in silicates, like the lunar samples collected on the Apollo missions. In addition, there was a reddish band that seemed to correspond to the spectrum of lunar soil that has received many impacts from micrometeorites and solar wind. The first hypothesis returns. This same year, a team of European scientists has carried out a new study in which the probabilities of both hypotheses are analyzed. Clearly, the asteroid option wins over the lunar fragment option. China to the rescue China to the rescue. As Tianwen-2 approaches Kamo’oalewa, Chinese scientists have begun to make their own characterizations from a distance. For example, a study was recently published in which they compared the spectrum they measured in Arizona with that of a chondrite bombarded by laser. The chondrites They are rocky asteroids that have impacted the Earth in the form of meteorites. Laser bombardment mimics the effects of several million years of impacts. When analyzing the spectrum of this manipulated chondrite, they saw a reddish band very similar to that of Kamo’oalewa. Therefore, it is possible that it is an asteroid rich in silicates. There doesn’t have to be just them. on the moon. Specifically, they believe that it may be from the Flora family, coming from the asteroid belt. The hypothesis that is winning. Currently the asteroid hypothesis wins, although there will be no clear answer until the Tianwen-2 samples reach Earth. After many debates by scientists from Europe and the United States, the answer will be brought by a Chinese ship. This, once again, shows us how important it is to work as a team to answer the big questions of the Universe. Image | 中国新闻社 In Xataka | There is a silent race to take over the Moon’s waves: dozens of companies have claimed part of its spectrum