\n<\/p>\n
Scientists have identified an ultramassive black hole billions of light years away<\/p>\n
IgorZh\/Shutterstock<\/p>\n<\/div>\n<\/figcaption><\/figure>\n<\/p>\n
A gargantuan black hole hiding in a galaxy 5 billion light years away is the most massive that has been directly measured, more than 10,000 times as massive as the supermassive black hole at the centre of the Milky Way, and around 36 billion times the mass of our sun.<\/p>\n
\u201cIt\u2019s quite possibly the most massive black hole in the universe,\u201d says Thomas Collett at the University of Portsmouth in the UK. \u201cIt\u2019s the mass of a small galaxy in one singularity.\u201d<\/p>\n
The ultramassive black hole resides around 5 billion light years away from us in the Cosmic Horseshoe, one of the most massive known galaxies. The Cosmic Horseshoe is also the largest known galactic lens, a galaxy that can magnify the light behind it due to its enormous gravitational pull. While previous studies suggested an extremely massive black hole could be at the centre of this galaxy, researchers struggled to put an exact number on it.<\/p>\n
To pin down the black hole\u2019s mass more accurately, Collett and his team measured how fast stars were swirling around it, since their speed depends on the mass of the black hole. To put constraints on the potential mass, the researchers also measured how much light was being bent by the black hole\u2019s gravity, an effect called gravitational lensing. \u201cCombining those two effects, we were able to make this measurement with very high confidence,\u201d says Collett.<\/p>\n
<\/p>\n Although the object\u2019s mass is unusually large, it fits with Collett and his team\u2019s previous work: studying how dark matter is distributed through the galaxy by constructing a model to match the data from the light they observed. They couldn\u2019t find a model that fit \u2013 unless the Cosmic Horseshoe had an extremely massive black hole at its centre.<\/p>\n \u201cIt was only when we started to really allow the black hole mass to go incredibly high that we started to get good models,\u201d says Collett.<\/p>\n The Cosmic Horseshoe is also thought to be a so-called fossil group galaxy, a type of star system that has absorbed all its neighbouring galaxies. This behaviour could help explain how the black hole got so massive.<\/p>\n One puzzling feature remains, however: the black hole has now stopped growing and is lying dormant. \u201cFor it to be as big as it is, it had to have been accreting for basically the entirety of the universe. It\u2019s weird that now it\u2019s off,\u201d says Collett. \u201cSomething has caused this black hole to just grow and grow and then stop.\u201d<\/p>\n Topics:<\/p>\n<\/section><\/div>\n