A star cluster in the universe might be hiding a swarm of over 100 stellar-mass black holes. The cluster is called Palomar 5 and is a stellar stream of stars stretching across 30,000 light-years. It is located around 80,000 light-years away.
Globular clusters such as the Palomar 5 are usually very old and are therefore also called “fossils” of the early universe. They are dense, spherical and contain nearly 100,000 to one million very old stars. All these stars in a cluster are birthed at the same time.
Our galaxy, the Milky Way, has around 150 globular clusters that are known to scientists. Since they are extremely old, they are great to help learn about the history of the Universe and the dark matter content of their galaxies.
Recently, tidal streams of stars, or long rivers of stars that stretch across the sky, have also caught the attention of astronomers. This is because the Gaia space observatory has been mapping our galaxy with high precision.
Scientists have been trying to figure out how a stream of stars forms. Initially, they were believed to be “disrupted star clusters,” astrophysicist Mark Gieles from the University of Barcelona in Spain said in 2021.
“However, none of the recently discovered streams have a star cluster associated with them, hence we can not be sure. So, to understand how these streams formed, we need to study one with a stellar system associated with it.
Palomar 5 is the only case, making it a Rosetta Stone for understanding stream formation and that is why we studied it in detail.”
Why Palomar 5
Palomar 5 has both a very wide, loose distribution of stars and a long tidal stream. The researchers recreated the orbits and evolutions of each star in the cluster to understand how they ended up in the cluster.
Black holes were included in some of the simulations since evidence suggests they might exist in the central regions of globular clusters. Besides, any interaction with them can throw them off as well.
They found that the presence of a significant number of stellar-mass black holes within Palomar 5 could have resulted in the current formation.
The stars were likely flung out from the cluster due to orbital interactions and into the tidal stream.
This could have also led to an increase in the proportion of black holes.
“The number of black holes is roughly three times larger than expected from the number of stars in the cluster, and it means that more than 20 per cent of the total cluster mass is made up of black holes,” Gieles said.
Researchers suggest the cluster will dissolve completely in around 1 billion years. Right before this happens, all that would be left in the cluster are black holes, orbiting the galactic centre.