More black holes "hiding" in the universe than previously thought, say scientists
Many of the galactic giants lurk in plain sight, obscured by dust and gas clouds
A new study has suggested there are many more supermassive black holes in the universe than previously thought.
Astronomers at the University of Southampton say without them, there could be more stars in the sky.
It's thought 35% of the galactic giants have gone undiscovered because they are obscured by thick clouds of gas and dust, but the number was previously estimated as 15%.
Some supermassive black holes are billions of times heavier than the sun.
Supermassive black holes "lurking in plain sight"
Professor Poshak Gandhi, co-author of the study published in the Astrophysical Journal, said: "Black holes are the most mysterious objects in the universe and are present everywhere - yet we still don't fully know how they evolve.
"We've found that many more are lurking in plain sight - hiding behind dust and gas rendering them invisible to normal telescopes.
"This is the first time we have a highly refined census of black holes growing by consuming interstellar material surrounding them."
He added: "If we didn't have a supermassive black hole in our Milky Way galaxy, there might be many more stars in the sky.
"That's just one example of how black holes can influence a galaxy's evolution."
The team of scientists used data taken from Nasa's InfraRed Astronomy Satellite and the X-ray space telescope NuSTAR to analyse infrared emissions from clouds surrounding supermassive black holes.
Prof Gandhi added: "Though black holes are dark, surrounding gas heats up and glows intensely, making them some of the brightest objects in the universe.
"Even when hidden, the surrounding dust absorbs and re-emits this light as infrared radiation, revealing their presence.
"X-rays provide a complementary view peering through the veiling gas, much like a medical X-ray scan allows a doctor to peer through to our insides."
The team say that finding out the number of hidden black holes compared with the number of known ones could help understand how they grow to such a size.
Lead author Dr Peter Boorman, formerly of the University of Southampton and now at Caltech, in Pasadena, California, explained: "Black holes also influence the galaxies they live in - this happens because they are surrounded by massive clouds of gas and dust and can consume vast amounts of material.
"If too much falls toward a black hole, it starts coughing up the excess and firing it back out into the galaxy. That can disperse gas clouds within the galaxy where stars are forming, slowing the rate of star formation."