The discoveries continue to exit James WebSpace Telescope (JWST). Researchers witnessed an extraordinary cluster, which they called the Infinity Galaxy. It seems that it supports an important theory of how some super mass black holes are.
Although the “Infinity Galaxy” looks like a place as if the police will hang, it simply describes its appearance. Two compact, red nuclei, each is surrounded by a ring, shape an unlimited symbol to the cluster.
What is inside is more interesting. (However, it is a little razor than some of the eyes candy through a web telescope.) Researchers believe that when two spiral galaxies (nuclei in the syllable) collide, the infantry galaxy was formed. There is a young Super Masio Black Hole inside a very large cloud of gas.
Super Massev Black Hole can be millions or billions of times millions or billions of times over the size of our sun, up to hundreds of thousands or billions of times. It is one million times larger.
Infinity Galaxy is developed with a map of a smoke that is identified by the Super Massev Black Hole (NASA / JWST)
The Infinity Galaxy lends the theory of direct elimination of black hole. As you probably know, when large stars fall, most of the black holes are formed. Presence Super Auntie Which are difficult to explain.
A theory suggests that small black holes are combined over time to create a super -mastery. The problem there is that shortly after the Big Bang, some Super Aunt Black Hole was formed. Therefore, scientists believe that instead of eliminating the clouds of gas, some super -masters become as we see here. Infinity Galaxy can still be the best evidence for this direct elimination assumption.
One of the leading paper writers summarized these results. Peter Van Dokum wrote in a press release, “Looking at the Infinity Galaxy data, we understand that we have presented a story together here on how a direct end here can be.” “Two disk galaxies collided with each other, we see that we see the ring structure of the stars. During the collision, gas inside these two galaxies and gas inside the compresses. This compression can be enough to make just a dense knot, which then fell into the black hole.”
The team cannot confirm the theory with its current data. “But we can say that these new data reinforces the issue that we are watching a newborn black hole, while eliminating some of the competitive explanations,” he said. “We will continue to emphasize through data and investigate these possibilities.”
