"Six images of galaxies taken from nearly 800,000, from upper left to lower right: the present-day universe, and 3, 4, 8, 9, and 10 billion years ago. Credit: M. Franco / C. Casey / COSMOS-Web collaboration" (ScitechDaily, When the Universe Broke the Rules: Webb Spots “Impossible” Galaxies at Cosmic Dawn)
Before stars start to form there must be some gravity center. Then that gravity center started to pull hydrogen or hydrogen ions into that point. The reionization where cosmic radiation pushes electrons out from an atom's orbitals is an interesting thing. There must be some kind of source for that radiation. And in some models the Big Bang caused shine. That caused reflection from those atoms causing that reionization.
There is a possibility that in the young universe’s quantum field formed some kind of turbulence or whirls that pulled hydrogen ions against each other. There must be a lot of material that the fusion starts in those hydrogen stars. When we say that those first stars burn hydrogen to helium we forget one thing. In the fusion tests. Systems deuterium and tritium. Those heavy isotopes of hydrogen consist of one proton and one neutron (deuterium), or one proton and two neutrons (tritium). In Helium 3 is one neutron and two protons. So, which formed first, deuterium, tritium or Helium 3?
The “impossible” galaxies from the young universe give a view to material advance. Those very early galaxies give data about the theorem that dark matter can form visible material or even wobble between visible material and dark matter states. Those young galaxies tell about the interaction between dark and visible material. And they can offer an answer to the question, can the weakly interacting massive particle, WIMP be some “real” particle, or can it be a whirl in some quantum field? And that means the dark matter could be some kind of turbulence in some quantum field.
"Researchers propose that early elliptical galaxies may be responsible for a significant portion of the cosmic microwave background, potentially undermining the Big Bang’s most trusted evidence. (Artist’s concept.) Credit: SciTechDaily.com" (ScitechDaily, Rewriting Cosmology: New Calculations Shake Foundations of the Big Bang Theory)
But everything is open until astronomers and physicists find the first sign of the mysterious WIMP. Dark matter is one of the biggest mysteries in the universe. It's a gravity effect without any source. In new models, it is possible that the gravity field can form the turbulence or whirl in that field. And if the whirl in the gravity field increases its power. Theoretically, packed gravitational fields can form even a black hole. In that case, the gravity waves that impact each other form a situation where the gravity pothole turns deeper and deeper Until even light cannot escape from there.
And that closes the past universe partially away from theory where a detonated black hole formed the universe. There is a possibility that the black hole or Kugelblitz black hole formed straight from energy fields interaction and then that detonated black hole formed the event called the Big Bang. And then again, where did those gravity waves come from?
But we know that dark matter has a role in the galaxies. If dark matter doesn’t act as glue that means galaxies must rotate slower and stars should be closer to each other so that the structure stays in its form. Some galaxies have no dark matter. And some of them have. And that means dark matter is similar to visible material because it can form structures. But the dark matter form is a mystery. There is a possibility that WIMPs are like quasiparticles. One suggestion is that WIMP is like an exciton.
In an exciton, the electron starts to orbit its own hole. So if that electron hole turns deep enough it could pull all reflection from the particle that orbits it into that hole. It is theoretically possible that the dark matter particle or WIMP is the miniature black hole that some other particle orbits. In some models, it is possible that one of three quarks can jump out from baryons. That leaves holes in the baryon structure and that can cause an effect where that baryon starts to wave or wobble. But those models are purely theoretical.
https://scitechdaily.com/rewriting-cosmology-new-calculations-shake-foundations-of-the-big-bang-theory/
https://scitechdaily.com/when-the-universe-broke-the-rules-webb-spots-impossible-galaxies-at-cosmic-dawn/
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