The new “object,” dubbed SDSS J0100+2802, was found 12.8 billion light years from Earth at the center of a quasar – a core element of a galaxy that emits radiation – with a million billion times the sun`s energy output.
The results of the finding by an international team of astronomers were published in the journal Nature on Wednesday.
The black hole was formed right at the dawn of our 13.8 billion-year-old universe, and was called “the brightest lighthouse in the distant universe” by Xue-Bing Wu, the leading author of the paper. What astronomers find unexplainable is the fact that such an enormous black hole was formed following the first stars and galaxies, which contradicts theories that black holes are formed while sucking in celestial objects nearby.
“Forming such a large black hole so quickly is hard to interpret with current theories,” co-author Fuyan Bian from Australian National University said in a statement. “This black hole at the center of the quasar gained enormous mass in a short period of time.”
The team of astronomers from China, the US, Australia, and Chile were studying materials obtained by several telescopes from all over the globe, when they found the brightest ever quasar with a black hole, with a “redshift” of 6.30. The “redshift” is a way to measure the distance and age of an object emitting light by the stretching of light to the red end of the spectrum. Quasars exceeding a “redshift” of 6.0 are extremely rare – only 40 of them have been discovered so far.
“Our finding of an ultra-luminous object with a mass of 12 billion times than the mass of our Sun in the early Universe is a surprising discovery. Before our work, there is no black hole with so huge mass within 1 billion years after the Big Bang. That makes our discovery unique and important,” Wu told.
Mysterious quasars were discovered in the 1950s. For the time being, scientists have counted over 200,000 quasars, which are extremely difficult to find. They are believed to consist of heated matter, surrounding supermassive black holes that can be found in the center of galaxies. The black hole in the center of our Milky Way galaxy has a mass of three million suns.
“This quasar is a unique laboratory to study the way that a quasar’s black hole and host galaxy co-evolve. Our findings indicate that in the early universe, quasar black holes probably grew faster than their host galaxies, although more research is needed to confirm this idea,” co-author Yuri Beletsky from the Carnegie Institution said.
“It`s very difficult to explain how to grow the black hole to 12 billion solar masses within just a few hundred million years after the Big Bang. It requires either very special ways to grow the black hole or a huge seed black hole mass. Both are difficult to be explained by the current theories,” Wu told RT. “We need to improve our theories or input some new physics to explain the discovery of this supermassive black hole.”
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