WASHINGTON—The centre of our galaxy is teeming with black holes, sort of like a Times Square for strange super gravity objects, astronomers have discovered.
For decades, scientists theorized that circling in the centre of galaxies, including ours, were lots of stellar black holes—collapsed giant stars where the gravity is so strong even light doesn't get out.
But they hadn't seen evidence of them in the Milky Way core until now.
Astronomers poring over old X-ray observations have found signs of a dozen black holes in the inner circle of the Milky Way. And since most black holes can't even be spotted that way, they calculate that there likely are thousands of them there.
They estimate it could be about 10,000, maybe more, according to a study in the journal “Nature.”
“There's lots of action going on there,” said study lead author Chuck Hailey, a Columbia University astrophysicist.
“The galactic centre is a strange place," he added. "That's why people like to study it.”
The stellar black holes are in addition to—and essentially circling—the already known supermassive black hole, called Sagittarius A, that's parked at the centre of the Milky Way.
In the rest of the massive Milky Way, scientists only have spotted about five dozen black holes so far, Hailey noted.
The newly-discovered black holes are within about 30.9 trillion km of the supermassive black hole at the centre. So there's still a lot of empty space and gas amid all those black holes.
But if you took the equivalent space around Earth, there would be zero black holes, not thousands, Hailey said.
Earth is in spiral arm around 3,000 light years away from the centre of the galaxy (a light year is 5.9 trillion miles, or 9.5 trillion km).
Harvard astronomer Avi Loeb, who wasn't part of the study, praised the finding as exciting but confirming what scientists long had expected.
The newly-confirmed black holes are about 10 times the mass of our sun, as opposed to the central supermassive black hole, which has the mass of four million suns.
Also the ones spotted are only the type that are binary, where a black hole has partnered with another star and together they emit large amount of X-rays as the star's outer layer is sucked into the black hole.
Those X-rays are what astronomers observe.
When astronomers look at closer binary black hole systems, they then could see the ratio between what's visible and what's too faint to be observed from far away.
Using that ratio, Hailey figures that even though they only spotted a dozen, there must be 300-500 binary black hole systems.
But binary black hole systems likely are only five percent of all black holes, so that means there are really thousands of them, Hailey noted.
There are good reasons why the Milky Way's black holes tend to be in the centre of the galaxy, he added.
First, their mass tends to pull them to the centre. But mostly the centre of the galaxy is the perfect “hot house” for black hole formation, with lots of dust and gas.
Hailey said it is “sort of like a little farm where you have all the right conditions to produce and hold on to a large number of black holes.”