Black Holes Detected by James Webb Telescope are made up of Dark Matter Says Study
James Webb Space Telescope discovered about Black Hole. With the help of this, scientists could know that they spread to such a huge size from the beginning of the universe. But how? Another element of the universe is functioning behind it, which is called Dark Matter. This study has the ability to find out how supermasive Black Hole became so fast and so big at the beginning of the universe.
Researchers have introduced a new physical model. With its help, an attempt has been made to explain how supermacic black holes can be formed by the end of the mysterious element called dark matter. The dark matter is said to be a mysterious ingredient of the universe that is effectively disappeared and contacts other substances only through gravity. As a result, it prepares a structural structure for the construction of galaxy.
Despite such an important role of dark matter, its nature remains one of the biggest mysteries in astronomy physics. The standard model of the universe believes that dark matter only performs mutual action through gravity. But this supermasip seems to be struggling to explain the existence of Black Hole, which is present in such a huge form after only 80 million years of Big Bang.
To understand this challenge, scientists proposed a sub-component of dark matter, which was called ultra self-interesting dark matter. It describes the ability of powerful interaction. Due to this properties, dark matter particles began to collect together in the centers of Galactic Halos. After a time, he collapsed in the form of sprouts of the supine black hole. If this process took place at the beginning of the development of a galaxy, then it definitely had a seed planting of supermasive black holes.
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