By Gizem Nisa Cebi
ISTANBUL (AA) - A team of international researchers has identified the first-ever binary star system near Sagittarius A, the supermassive black hole at the center of the Milky Way galaxy, according to a new study.
Published in Nature Communications on Tuesday, this groundbreaking study marks the first time a binary star has been detected in such an extreme environment, challenging long-held assumptions about black holes’ destructive nature.
"Black holes are not as destructive as we thought," said Florian Peibker, lead author from the University of Cologne.
The discovery was made using data from the European Southern Observatory’s Very Large Telescope.
Despite the intense gravitational forces near Sagittarius A, the stars have remained stable, a finding that defies previous theories about star formation in such harsh conditions.
Binary stars, two stars bound by gravity, are common in the universe but were believed to be unable to survive near a black hole due to its extreme gravitational forces. However, D9, estimated to be 2.7 million years old, has shown that stars can form and exist in such environments.
-Planet formation potential
The discovery of D9 raises intriguing questions about the potential for planets to form near supermassive black holes. Young stars, like those in the binary system, are often surrounded by debris such as gas and dust – key ingredients for planet formation.
"The D9 system shows clear signs of gas and dust around the stars, suggesting it could be a very young stellar system formed near the black hole," noted co-author Michal Zajacek.
"If that sort of material is close enough to the star that it doesn’t feel the really strong gravitational pull from the black hole, then your planets will form more or less oblivious to the fact that it’s near a black hole," Professor Geraint Lewis of the Sydney Institute for Astronomy also said.
Researchers predicted that the immense gravity of Sagittarius A will likely merge the two stars into one within a million years – a brief moment on cosmic timescales.
"It seems plausible that the detection of planets in the galactic center is just a matter of time," Peibker added.
-Complementing earlier discoveries
This discovery complements earlier findings of "G objects," mysterious entities near Sagittarius A that exhibit characteristics of both stars and gas. Scientists now speculate that these objects might be merging binary systems similar to D9.
"It’s just another tiny piece of the enormous puzzle of our universe – how it works, its past, present, and future," said astrophysicist Clare Kenyon of the University of Melbourne.
This breakthrough finding not only offers a deeper understanding of how stars and potentially planets can survive in one of the most extreme environments in the universe but also opens new avenues for exploring planetary systems in the most unexpected corners of the cosmos.