Above: The fractal structure of the Messier-74 galaxy. In those structures energy and gravity are in an eternal race. You can also see things like holes in that gas disk, or a galactic nebula. If there is a whirl there are four possibilities. There can form planets and the sun. But if the star that forms is too big, it blows the material disk away from its environment. And that denies the planetary system formation. Or if the disk is very massive it falls straight to a black hole. The empty places in the disk are areas where some cosmic catastrophe has blown the material away.
Or there is a possibility that a denser spherically-shaped material cloud or nebula pulls material away from the middle of it. Or in those holes formed stars and planets or black holes pulled that gas away from those holes in the nebula. Or, maybe the extremely powerful supernovas blew cosmic gas away from that point.
JWST found new data to explain how spiral galaxies form. There are two structures in the spiral galaxy: thin and thick. The thin disk can form earlier and then the thin structure's gravity starts to collect the thick structure around it. Those two structures move at different speeds and that causes problems with the models.
The spiral structures that move at different speeds create the whirls that start to collect material into them. So, the star formation begins in those points. That thing explains the star, planet, and finally neutron star and black hole formation as the whirls that form around material. Or actually, all particles in the universe from the quark to the most massive objects form from whirls.
The requirement is that the particles can form such a large whirl and bind energy or quantum fields into it so fast that it cannot push that energy away. That means the particle must spin with an extremely high speed. The idea is that the black hole or any other structure in the universe creates a whirl around it. An interesting thing is that all objects from stars to planets are forming from whirl-shaped structures. The spiral galaxy is actually the supermassive black hole’s material disk. That disk keeps the supermassive black hole in its form. Without that disk, the energy that is trapped in the black hole will be released.
The black hole’s relativistic jet tells that the gravity center is a structure that aims, or conducts energy somewhere else. Energy travels to the black hole’s spin axis and there forms the relativistic jets. The main problem is: is the source of the relativistic jet outside the event horizon or inside it? In a wormhole model, the black hole forms a gravitational tornado. The structure forms a situation where a gravitational field or quantum field forms a tornado-shaped structure. The idea of that phenomenon is that if the gravity field turns into a spiral, then that thing causes a situation where there is no gravity field in the black hole’s spin axis. Maybe that channel explains the relativistic jet.
https://esawebb.org/wordbank/electromagnetic-spectrum/
https://www.sci.news/astronomy/webb-structural-evolution-disk-galaxies-14026.html
