A new study by a Belgian team using data from the European Southern Observatory's Very Large Telescope (ESO's VLT) has shown that iron and nickel exist in the atmospheres of comets throughout our Solar System, even those far from the Sun. A separate study by a Polish team, who also used ESO data, reported that nickel vapor is also present in the icy interstellar comet 2I/Borisov. This is the first time heavy metals, usually associated with hot environments, have been found in the cold atmospheres of distant comets.
Jean Manfroid from the University of Liège, Belgium, who lead the new study on Solar System comets published today in Nature said, it was a big surprise to detect iron and nickel atoms in the atmosphere of all the comets we have observed in the last two decades, about 20 of them, and even in ones far from the Sun in the cold space environment.
Astronomers know that heavy metals exist in comets dusty and rocky interiors. But, because solid metals don't usually sublimate (become gaseous) at low temperatures, they did not expect to find them in the atmospheres of cold comets that travel far from the Sun. Nickel and iron vapors have now even been detected in comets observed at more than 480 million kilometers from the Sun, more than three times the Earth-Sun distance.
The Belgian team found iron and nickel in comets atmospheres in approximately equal amounts. The material in our Solar System, for example, that found in the Sun and in meteorites, usually contains about ten times more iron than a nickel. This new result, therefore, has implications for astronomers understanding of the early Solar System, though the team is still decoding what these are.
study co-author Emmanuel Jehin, also from the University of Liège said, comets formed around 4.6 billion years ago, in the very young Solar System, and haven't changed since that time. In that sense, they're like fossils for astronomers.
Jehin said, while the Belgian team has been studying these fossil objects with ESO's VLT for nearly 20 years, they had not spotted the presence of nickel and iron in their atmospheres until now. This discovery went under the radar for many years.
The team used data from the Ultraviolet and Visual Echelle Spectrograph (UVES) instrument on ESO's VLT, which uses a technique called spectroscopy, to analyze the atmospheres of comets at different distances from the Sun. This technique allows astronomers to reveal the chemical makeup of cosmic objects: each chemical element leaves a unique signature a set of lines in the spectrum of the light from the objects.
The Belgian team had spotted weak, unidentified spectral lines in their UVES data and on closer inspection noticed that they were signaling the presence of neutral atoms of iron and nickel. A reason why the heavy elements were difficult to identify is that they exist in very small amounts: the team estimates that for each 100 kg of water in the comets' atmospheres there is only 1 g of iron, and about the same amount of nickel.
Damien Hutsemékers, also a member of the Belgian team from the University of Liège said, usually, there is 10 times more iron than nickel, and in those comet atmospheres, we found about the same quantity for both elements. We came to the conclusion they might come from a special kind of material on the surface of the comet nucleus, sublimating at a rather low temperature and releasing iron and nickel in about the same proportions.
Although the team isn't sure yet what material this might be, advances in astronomy—such as the Mid-infrared ELT Imager and Spectrograph (METIS) on ESO's upcoming Extremely Large Telescope (ELT) will allow researchers to confirm the source of the iron and nickel atoms found in the atmospheres of these comets.
The Belgian team hopes their study will pave the way for future research.
Jehin said, now people will search for those lines in their archival data from other telescopes. We think this will also trigger new work on the subject.
Another remarkable study published today in Nature shows that heavy metals are also present in the atmosphere of the interstellar comet 2I/Borisov. A team in Poland observed this object, the first alien comet to visit our Solar System, using the X-shooter spectrograph on ESO's VLT when the comet flew by about a year and a half ago. They found that 2I/Borisov's cold atmosphere contains gaseous nickel.
Study author Piotr Guzik from the Jagiellonian University in Poland said, at first, we had a hard time believing that atomic nickel could really be present in 2I/Borisov that far from the Sun. It took numerous tests and checks before we could finally convince ourselves.
The finding is surprising because, before the two studies published today, gases with heavy metal atoms had only been observed in hot environments, such as in the atmospheres of ultra-hot exoplanets or evaporating comets that passed too close to the Sun. 2I/Borisov was observed when it was some 300 million kilometers away from the Sun, or about twice the Earth-Sun distance.
Studying interstellar bodies in detail is fundamental to science because they carry invaluable information about the alien planetary systems they originate from.
Co-author Micha? Drahus, also from the Jagiellonian University said, all of a sudden we understood that gaseous nickel is present in cometary atmospheres in other corners of the Galaxy.
The Polish and Belgian studies show that 2I/Borisov and Solar System comets have even more in common than previously thought.
Drahus said, now imagine that our Solar System's comets have their true analogues in other planetary systems how cool is that?.