If axions are the particles of dark matter, that thing means that 85% of the matter of the universe is axions. Or if there is cold and hot dark matter. That means there could be two kinds of axions.
1) High energetic axions, which is forming hot dark matter. So could the hot dark matter be the hyperenergetic version of material?
2) Low-energetic axions, which is forming the hot dark matter. In that model, the cold dark matter will be the low energetic version of the material.
And that means that the position of the dark matter or the radiation. Which is coming from the dark matter could be at both ends of the electromagnetic spectrum. If the hot dark matter could be hyperenergetic material, the size of the particles. That is forming hot dark matter would be smaller than particles of visible material.
The hot dark matter sends the radiation, which wavelength is shorter than gamma-rays. And cold dark matter sends radiation, which is below the radio frequencies. So the size of the cold dark matter particles could be bigger than the material, which means we cannot see that material because there is no opponent in the world of visible material.
Axions could be fossils from the early universe, and the question is could those fossils create the structures like normal material? The main idea is that axions are forming dark matter, the most dominating thing in the universe. But the problem is that nobody has seen axions yet. Sometimes the reason why the axions cannot be seen or observed is tried to explain.
In this model, the shape or size of the axions is different from than visible material. The idea is that dark matter is like normal material, but those materials are not interacting. So we can think that dark matter is forming of particles like visible material. And the hypothetical dark matter particles can be called axions. But today axions are theoretical particles.
We know that dark matter can travel through all other objects than black holes without other than gravitational interaction. And the interesting question is, how the dark matter does it?
In some theories, axion is a little bit like the neutrino. A neutrino can travel through the planet without hitting anywhere. And that means the axion could be the neutrino with an extremely strong quantum field.
Axions would be so fast-rotating particles that they cannot interact. In that theory, the shape of the axion is like a dumbbell or pancake. The fast rotation or the extremely strong spin will cause the quantum field of axions to push the other quantum fields away axion.
And because axion is pushing the quantum fields of other particles away, it would not interact. The reason for the lack of interaction is that in the quantum field is the wave movement. In that theory, the quantum fields of axions have a different wavelength than the quantum fields that surround the visible material.
Why those particles are so different than particles, what is forming the visible universe, and when we are thinking accurately, we must ask, why 85% of material is axions? If those particles exist. We know that dark matter exists, but what it is? The reason why we cannot see dark matter is that the wavelength of the radiation. What reflects from that material is different from than material, what we can observe.
Why did I write about reflection? The reason for that is that we cannot see most of the material itself at all. Or we cannot see the nucleus of the atom.
Most of the radiation that we see is reflected or sent by electrons that are delivering their energy to space. Only the minimum part of radiation comes out from the nucleus of the atom. And that requires that the atom is radioactive. But the nucleus of an atom is invisible to us, hiding behind the electron core. And in some theories, dark matter is just the overenergetic material.
()https://scitechdaily.com/axions-could-be-the-fossil-of-the-universe-astrophysicists-have-been-waiting-for/
()https://en.wikipedia.org/wiki/Axion
()https://en.wikipedia.org/wiki/Dark_matter
()https://en.wikipedia.org/wiki/Neutrino
Can the cosmic web and the cosmic megastructures give a tip on what kind of particle the axion is?
The name of the "cosmic neural structure" is given to the cosmic web, the largest megastructure in the universe, because that structure looks like the human neural web. Could the cosmic web be the source of dark energy? In that model, the thin gas. Which is orbiting around some kind of gravitational effect is acting like a giant generator. Which delivers energy to the universe.
The cosmic neural structure or the cosmic web is introduced as the source of dark energy. The idea is that the very thin gas. Which is forming the largest megastructure in the universe is acting as the generator. In that model, there is a structure inside the tube of gas, which is formed by fermions or probably axions, the hypothetical particles of dark matter. So when the material is rotating that extremely long structure, that makes the ions in that gas acting like giant generators.
The question is can axions create the structures like atoms? When we are seeing the images of the cosmic web. We understand that those structures are forming extremely thin gas and dust. But there is something that collects the gas and dust to the tube-looking structures that are bigger than any galaxy That megastructure is forming of galaxies and dust.
And there is a possibility that those structures are forming around the chains of hypothetical axions or quantum chains. Or maybe they are formed around the wormholes. Wormholes are hypothetical channels through time and space. Those channels can also collect particles around them. So there is some kind of gravitational effect that is making the "cosmic neural structure" possible.
()https://bigthink.com/surprising-science/cosmic-web
()https://en.wikipedia.org/wiki/Wormhole
Image:()https://bigthink.com/surprising-science/cosmic-web
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