Find James Web Space keeps out of JWST (JWST). Researcher saw An unusual cluster he dubbed to Infinity Galaxy. This supports a major principle how some supermasive black holes are formed.
Although “Infinity Galaxy” seems that Thanos will hang out like a place, it only describes its appearance. Two compacts, red nuclei, each is surrounded by a ring, gives the cluster the shape of an infinite symbol.
What is inside is more interesting. (Ultimately, this is a very low-resolution image, which is a yield of a web telescope compared to some eye candy.) Researchers believe that two spiral galaxies (nucleus in the image) collided when the formation of the infinite galaxy. There is a young supermasive black hole within a huge cloud of gas between them.
Supermasive black holes can range from the size of our sun to millions of or billions of times from its size. It is about one million times larger.
Infinity lends the weight of the galaxy Direct collapse The principle of formation of black hole. As you probably know, most black holes are formed when the stars collapse on a large scale. Presence of Giant It is difficult to explain to people.
A theory proposes that small black holes merge with time to create a supermacic. The problem is that some supermasives became black holes immediately after Big Bang. Therefore, scientists feel that some supermasive people are formed instead of the collapse of gas clouds, much we see here. Infinity galaxy can be the best evidence yet for that direct collapse hypothesis.
One of the key authors of the paper introduced the conclusions briefly. Peter van dockkum wrote in a press release, “Looking at the data of Infinity Galaxy, we think we have combined a story together how a direct collapse can happen.” “The two discs collide, which we see, form the ring structures of the stars. During the collision, gas shocks and compressed within these two galaxies. This compression can be enough to make just a dense knot, which was then collapsed in a black hole.”
The team certainly cannot confirm the principle with its current data. “But we can say that these new data strengthens the case that we are looking at a newborn black hole, while some end up competitive explanations,” said Van Dokkum. “We will continue staring through data and examine these possibilities.”
