Bright flash of radiation sent through the universe after black hole rips star to death

Andrew Griffin
·2 min read
(Independent)
(Independent)

Scientists have watched the final moments of a star after it was torn to shreds by a previously unknown black hole.

The star’s death was revealed to astronomers who saw a bright flare of radiation that was brighter than the whole of its home galaxy.

Researchers say the discovery has already led to “widespread excitement” and could help not only find such black holes but also tell them more about their size.

Before the discovery, the intermediate-mass black hole was lurking unfound in a quiet dwarf galaxy 850 million light years from Earth. But it was discovered when a star strayed too close the black hole, creating a “tidal disruption event” or TDE that produced a bright flare that shone through the universe.

That flare was picked up by scientists working on the Young Supernova Experiment, or YSE. That was designed to spot exactly those kinds of cosmic explosions and brief astrophysical eruptions.

They describe their findings in a new paper, ‘A fast-rising tidal disruption event from a candidate intermediate-mass black hole’, published in Nature Astronomy.

“This discovery has created widespread excitement because we can use tidal disruption events not only to find more intermediate-mass black holes in quiet dwarf galaxies, but also to measure their masses,” said coauthor Ryan Foley, an assistant professor of astronomy and astrophysics at UC Santa Cruz.

The findings not only show the existence of that newly found black hole. They will also allow us to find out more about other middling black holes, researchers said.

“The fact that we were able to capture this midsize black hole whilst it devoured a star offered us a remarkable opportunity to detect what otherwise would have been hidden from us,” said Charlotte Angus, from the Niels Bohr Institute, who is the first author on the new paper.

“What is more, we can use the properties of the flare itself to better understand this elusive group of middle-weight black holes, which could account for the majority of black holes in the centers of galaxies.”