"A team of astrophysicists has discovered three potential “dark stars” using the James Webb Space Telescope. These theoretical bodies, thought to be powered by dark matter particles, are much larger and brighter than our sun. If confirmed, they could significantly illuminate our understanding of dark matter, one of the most significant unresolved issues in physics. Furthermore, their existence could reconcile the discrepancy between the current standard cosmology model and the observation of large galaxies early in the universe." (ScitechDaily, Powered by Dark Matter: Webb Space Telescope Catches Glimpse of Possible First-Ever “Dark Stars")
It's possible that the JWST telescope found the first 3 dark matter-powered stars, or "dark star" candidates. If those dark stars, dark matter stars, or WIMP stars are the hypothetical weakly interacting massive particles, WIMP power proves the existence of the WIMPs, hypothetical dark matter particles. The existence of dark matter stars tells us that there can also be dark matter "planets".
And maybe hypothetical Planet X or the Ninth planet is one of those dark matter stars or dark matter planets. If those stars get their energy from dark matter annihilation that proves that the WIMPs have their mirror-particles. But there is a possibility that “dark stars get their energy boost from the dark matter particle’s collisions or dark matter fusion. There is also the possibility that particles can wobble between visible and dark matter.
Invisible stars, formed of dark matter, can seem very utopian things. But there are models and theories. If weakly interacting massive particles, WIMPs exist there is a possibility that the WIMP can create the superposition and entanglement with another WIMP. That makes the channel between those hypothetical dark matter particles that pulls them together. There is a possibility that the dark matter stars can turn the WIMPs into reality. But there is one problem.
Those WIMP- or dark matter stars can send radiation that is invisible to our sensors. The WIMP stars could be detected from the very young universe. The thing is that there are so-called WIMP clumps or WIMP accumulations all around the universe. And that means those clumps can also explain the mysterious Planet X. In that model, there is a small dark matter accumulation. That explains the mysterious gravitational effect at the Kuiper Belt.
"The James Webb Space Telescope spotted three objects that may be formed from dark matter particles annihilating one another. (Image credit: NASA/ESA)" (Space.com, Do fabled 'dark stars' actually exist? James Webb Space Telescope spots 3 candidates)
But then if those dark matter or WIMP stars existed in the young universe, where they go? The fact is that those dark matter accumulations didn't go anywhere. Visible matter covered those structures and the visible material's brightness covered those dark matter structures, or dark matter star's radiation below them. If those WIMP, or dark matter stars exist they can explain dark energy. If the dark matter stars exist they send energy through the universe in radiation, or wave movement that wavelength is the same as the diameter of the transmitting particle.
And the existence of the WIMPs can be the thing that can revolutionize physics. There is a possibility that WIMP particles can form similar structures as quarks make in mesons. Normally mesons are quite short-term particles; there most usually two quarks forming the bond. There is a possibility that if those quarks are turning in the right direction and their spin is high enough they wrap quantum fields around them so fast that they can keep each other in the same structure.
If those particles are in quantum entanglement that double whirl keeps them in one form. The quantum entanglement is like a tube between those particles. The asymmetry in those energy whirls causes the energy that comes behind those particles to push them together. This thing can explain the WIMP stars or dark matter stars. The WIMP star is the gravity center that pulls other, visible particles at that place. That kind of quantum fusion where quarks impact each other can revolutionize our knowledge of energy.
There is the possibility that the JWST telescope detected the first dark matter star or WIMP star in the universe. Or, the star that is the dark-mater powered. The dark matter interaction, if it exists, can boost the star's energy production. If there is dark matter fusion in that star, that energy can push energy to particles that this gravity center pulls around it.
Or if those quantum channels make those, still hypothetical WIMP particle's impact turn smaller that makes small empty pockets in the quantum fields. And then those pockets can also pull visible particles together. That means those hypothetical dark matter reactions can boost the reactions and a gravity effect between visible particles.
https://scitechdaily.com/powered-by-dark-matter-webb-space-telescope-catches-glimpse-of-possible-first-ever-dark-stars/
https://www.space.com/nasa-james-webb-space-telescope-stars-dark-matter
https://en.wikipedia.org/wiki/Dark_star_(dark_matter)
https://en.wikipedia.org/wiki/Planet_Nine
https://en.wikipedia.org/wiki/Weakly_interacting_massive_particle
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