'Ghost' super black hole with 800 million Sun revealed a strange phenomenon

New research from Canada has found evidence of super-black supermasses of unusual origins by looking through time into phantom objects that are more than 13 billion years old.

Using data on black holes 83 SMBHs, 13.05 billion light-years away, were discovered by Subaru Telescope in Hawaii - USA, the research team from Western University (Canada) found evidence of The extraordinary way of life of a black hole exists only in the cosmic dawn.

Picture 1 of 'Ghost' super black hole with 800 million Sun revealed a strange phenomenon
Simulation of the "primordial" monster of the universe - (provided by the research team).

This distance means that what has been observed happened more than 13 billion years ago, but until now, light from it has reached the eyes of the earth and created the image we see. At that time, the universe was still in its infancy. Therefore, the supermassive black hole 83 SMBHs is one of the first objects born in the universe. It has a mass of up to 800 million Suns and formed completely at 690 million years after the Big Bang.

Previously, the theory was that black holes were formed when a super-massive star collapsed. However, with this ancient supermassive black hole , scientists discovered that no star died and produced it. This black hole appears after a "direct collapse", that is, and many other homosexual black holes seem to be born out of nothing in the first 800 million years after the Big Bang.

The supermassive black hole is what astronomers call "monster" black holes, only extremely large black holes with extremely powerful energy sources.

Picture 2 of 'Ghost' super black hole with 800 million Sun revealed a strange phenomenon
83 SMBHs (after the arrow) in the image captured by the Subaru Telescope - (photo provided by the research team).

However, this primitive "monster" generation stopped growing after a period of raging. According to astrophysicist Shantanu Basu, one of the authors, they developed a mathematical model and found the solution: limit Eddington . That's when the universe gets more crowded, the radiation from other stars and black holes gradually affects and overcomes the ancient "monsters" .

The research has just been published in the Astrophysical Journal Letters journal.