![]() ![]() The team’s detection of fluorine was a chance discovery made possible thanks to the use of space and ground-based observatories. But never before had this element been observed in a star-forming galaxy so early in the history of the Universe. Astronomers have previously spotted this element in distant quasars, bright objects powered by supermassive black holes at the centre of some galaxies. The discovery in NGP–190387 marks one of the first detections of fluorine beyond the Milky Way and its neighbouring galaxies. “ Our measurement adds a completely new constraint on the origin of fluorine, which has been studied for two decades.” This was a totally unexpected result,” says Chiaki Kobayashi, a professor at the University of Hertfordshire. “ For this galaxy, it took just tens or hundreds of millions of years to have fluorine levels comparable to those found in stars in the Milky Way, which is 13.5 billion years old. But the team believes these scenarios, some of which take billions of years to occur, might not fully explain the amount of fluorine in NGP–190387. An example includes pulsations of giant, evolved stars with masses up to few times that of our Sun, called asymptotic giant branch stars. “ We have shown that Wolf–Rayet stars, which are among the most massive stars known and can explode violently as they reach the end of their lives, help us, in a way, to maintain good dental health!” jokes Franco.īesides these stars, other scenarios for how fluorine is produced and expelled have been put forward in the past. Wolf–Rayet stars had been suggested as possible sources of cosmic fluorine before, but astronomers did not know until now how important they were in producing this element in the early Universe. They are needed to explain the amounts of hydrogen fluoride the team spotted, they say. The team believes that Wolf–Rayet stars, very massive stars that live only a few million years, a blink of the eye in the Universe’s history, are the most likely production sites of fluorine. Since stars expel the elements they form in their cores as they reach the end of their lives, this detection implies that the stars that created fluorine must have lived and died quickly. “ We did not even know which type of stars produced the majority of fluorine in the Universe!”įranco and his collaborators spotted fluorine (in the form of hydrogen fluoride) in the large clouds of gas of the distant galaxy NGP–190387, which we see as it was when the Universe was only 1.4 billion years old, about 10% of its current age. Like most elements around us, fluorine is created inside stars but, until now, we did not know exactly how this element was produced. “ We all know about fluorine because the toothpaste we use every day contains it in the form of fluoride,” says Maximilien Franco from the University of Hertfordshire in the UK, who led the new study, published today in Nature Astronomy. This is the first time fluorine has been spotted in such a distant star-forming galaxy. Using the Atacama Large Millimeter/submillimeter Array (ALMA), in which the European Southern Observatory (ESO) is a partner, a team of astronomers have detected this element in a galaxy that is so far away its light has taken over 12 billion years to reach us. A new discovery is shedding light on how fluorine - an element found in our bones and teeth as fluoride - is forged in the Universe.
0 Comments
Leave a Reply. |