Rare ‘Goldilocks’ black hole could change what we know about the universe


The new ‘Goldilocks’ black hole that was found through the detection of a gravitationally-lensed gamma-ray burst. (PA)

A newly discovered black hole approximately 55,000 times the mass of the sun could be an ancient relic created before the first stars and galaxies formed, scientists have said.

Such a black hole may be the seed of the supermassive black holes which exist today and could help scientists estimate the total number of these objects in the universe, researchers said.

The discovery of the ‘intermediate-mass’ or ‘Goldilocks’ black hole – different to the small black holes made from stars and the supermassive giants in the core of most galaxies – is published in the journal Nature Astronomy.

Researchers estimate that there are some 46,000 intermediate-mass black holes in the vicinity of the Milky Way galaxy.

The new black hole was discovered by researchers from the University of Melbourne and Monash University, through the detection of a gravitationally lensed gamma-ray burst.

The burst – a half-second flash of high-energy light emitted by a pair of merging stars – had an “echo”, caused by the intermediate-mass black hole, which bent the path of the light on its way to Earth so that astronomers saw the same flash twice.

Software developed to detect black holes from gravitational waves was adapted to show that the two flashes were images of the same object.

Study co-author, Professor Eric Thrane, from Monash University, said: ‘This newly discovered black hole could be an ancient relic – a primordial black hole – created in the early universe before the first stars and galaxies formed.

The polarised view of the black hole in the Messier 87 (M87) galaxy (AFP)

‘These early black holes may be the seeds of the supermassive black holes that live in the hearts of galaxies today.’

Fellow paper co-author Professor Rachel Webster, from the University of Melbourne, described the findings as ‘exciting’.

She said: ‘Using this new black hole candidate, we can estimate the total number of these objects in the universe.

‘We predicted that this might be possible 30 years ago, and it is exciting to have discovered a strong example.’

Lead author and University of Melbourne PhD student James Paynter said the new discovery could help to shine new light on how supermassive black holes form.

He said: ‘While we know that these supermassive black holes lurk in the cores of most, if not all galaxies, we don’t understand how these behemoths are able to grow so large within the age of the universe.’


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