“Star Collapse Black Hole Jet Art Astronomers may have finally uncovered the origin of the universe’s earliest supermassive black holes. Observations from the James Webb Space Telescope revealed an unusual chemical signature in a distant galaxy. And. It points to the existence of colossal first-generation stars thousands of times more massive than the Sun. Credit: SciTechDaily.com” (ScitechDaily, JWST Detects Evidence of “Monster Stars” That May Have Created the Universe’s First Giant Black Holes)
Could those giant stars be? A so-called. But still hypothetical. Quasi-stars. Or black hole stars?
In some models, the first stars in the ancient universe were so-called quasi-stars or black hole stars. Those hypothetical stars could get their energy from a black hole inside them. The black hole pulls hydrogen from around it into the form of a hollow shell. And there could be nuclear reactions in that shell that formed heavier elements.
New observations tell us about the first stars. Those giant stars formed just after the Big Bang. And there is a possibility that those stars are the origin of the universe’s first black holes. The major problem with the universe’s history is: What came first? Were black holes before the first stars, or were the first stars before the black holes? In the cosmological models, the only element that formed straight after the Big Bang was hydrogen.
The main question is, what made hydrogen ions or atoms fall into stars? Could there be some kind of electron clouds that pulled protons together? And then those electrons remained to orbit those protons. This means that atoms formed in those first stars. The problem is. What made protons, or atomic hydrogen, fall and form stars? There are a couple of possibilities. The first thing could be the negative electromagnetic field. That could form an electron cloud, which pulls protons to it.
“The size comparison of a Quasi-star with other stars.” (Wikipedia, The size comparison of a Quasi-star with other stars.)
Another thing. That which can launch the stellar formation is small black holes or some kind of voids in the young universe. The gravity center, like small primordial black holes. It can make matter accumulate around it. But the cosmic void can also act like a black hole.
If some kind of radiation beam. Can create a cosmic void. It’s possible that when that kind of void collapses. The idea is that the cosmic high-energy beam pushes particles and quantum fields away from its route. Then the gravity. Along with the falling quantum fields. That travel into that cosmic void. Pull those hydrogen atoms into that cosmic emptiness. And that effect can be connected with the gravity. Together, those things, the collapsing comic void and gravity, can launch star formation.
Another thing that can create those cosmic voids. It could be matter-antimatter annihilation. There could be antimatter existing. In the young universe. And electron-positron or proton-antiproton annihilation could form those cosmic voids that start to pack matter from around them.
Particles can travel across that emptiness at very high speeds, and that can form a whirl in the nebula. The problem. In those things is the gravity. And the electromagnetic pulling effect must. Win over the electromagnetic pushing.
There are only electrons and protons; something must happen that allows those particles and atoms to form the stars. Atomic hydrogen reacts very weakly with other hydrogen atoms. And there must form some kind of structure that starts to pack those atoms.
https://scitechdaily.com/jwst-detects-evidence-of-monster-stars-that-may-have-created-the-universes-first-giant-black-holes/
https://simple.wikipedia.org/wiki/Quasi-star
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