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Image I
If dark matter does not exist. The question is: where does 85% of the universe disappear? If 85% of material is invisible to us. That means the visible material is the extraordinary form of material. Anyway, most of the electromagnetic spectrum is invisible to the human eye.
The alternative version of dark matter is that there is a large number of micro-size black holes. Or the material that is forming too small particles that we cannot notice the interaction between those particles.
So the thing is that dark matter is similar material to every other material. But the wave movement that sends is so unique that nothing can interact with it so strongly that it can be detected.
The thing is that the gravitational interaction with the dark and visible material is the only way how to detect that thing. Because there are galaxies where is no dark matter. That thing means that dark matter is acting like all other material in the universe. Or it can make clouds and nebulas that are invisible to people. But the mystery is can it make also molecules or even larger structures?
The form of the photon is an interesting thing. And the reason is that even a photon doesn't have mass it can transmit energy. So in some visions photon is like a stick that is forming of the superpositioned quantum-size black holes. If the form of the photon is like a stick that can explain why its mass is hard to measure. In that case, the size of the photon is so small that it cannot affect quantum fields. Because the diameter of the impact area is so small it cannot oscillate the quantum field. And that is the thing that makes photons particles without mass.
So if the photon is like the piece that is spinning wire that can explain why the photon has no mass. If the photon is always turning to the quantum field. That means the extremely thin form of that thing doesn't cause enough powerful effects that researchers can measure that interaction.
The EM-spectrum
The fact is that the photon is moving energy. But it has no mass is interesting. One of the things that can cause that phenomenon is that the interaction between photon and quantum fields is so short or the shape of the photon is so exotic that researchers cannot measure its interaction with quantum fields. The photon has the form of particle and wave movement.
When the scientists captured photons that thing made some people think that there is the theoretical possibility that the photon can transform into a black hole. That thing can be possible if the extremely powerful quantum field is affecting the photon.
In some other visions, the hovering superpositioned and entangled photons can stress with electromagnetic radiation. And that thing could make the photon laser possible.
The photon laser is a theoretical system, that gives the light impulse straight from photons that are hovering in the chamber. The electromagnetic stress will adjust photons to a higher energy level. And when EM stress ends. The photons are delivering the electromagnetic wave movement. The problem is how to anchor photons between the mirror and holed mirror that is forming the laser element.
The laser application might be closer to the practical solution than we even think because the researchers of the University of Darmstadt stopped photons inside crystal over a minute in 2013.
So if photons can hover in some kind of quantum fog. That thing can make it possible to make the laser. That gives an energy pulse straight from hovering photons.
The wave movement and its role in energy transmitting.
There is a model that the superposition is forming. When the particle is sending the small string to another particle. Then that string that is the quantum lightning is hitting the particle that thing synchronizes the oscillation of those particles. The better model is that when the energy level of the particle is rising. That thing will also synchronize the other same-size particles around it to oscillate with the same frequency.
The wave movement is an interesting thing. When the particle sends it the receiving particle must have the same size. The interaction between the particle and wave movement is an interesting thing. The wave movement is taking particles between the waves. Or wave movement lines must fit together like the key is fitting to the lock.
If the sender particle is too small the receiving particle might not interact with the impacting wave movement. The reason for that is that the impacting area of the wave movement is so small that it cannot affect the bigger particles. In another version, if the sending particles are too small the wave movement would travel between quarks. In other vision, there are small holes in the quantum field of the particles. In that case, the wave movement or dark energy can travel through those holes without interacting with the environment.
That means the universe can be full of particles that are smaller than quarks. Or the high-energy radiation that causes a very weak interaction that nobody sees it. In this vision, the particles that size is much smaller than quarks are sending the radiation that is called dark energy. So the particles of dark matter are smaller than the quarks. And that is the reason why dark energy is hard to detect.
Or if the sending particle is too big. The receiving particles are slipping between waves and the interaction is also too short or too weak that it cannot affect its quantum fields. So the source of dark energy can be extremely large-sized particles.
But in some other theories and ideas, the photon itself is the virtual particle. That means it's the flash that is forming when some other particle is traveling through the quantum fields. So the photon is the flash that is forming when the unknown particle hits the quantum field. That is surrounding every each particle in the universe.
And now everybody asks why researchers can capture photons if they are virtual particles? There is the possibility that the photon would be trapped exactly to the point of the quantum field. And that is causing the quantum-size electric arc type phenomenon. That thing is making the electromagnetic wave movement that seems like the photon.
https://earthsky.org/astronomy-essentials/definition-what-is-dark-matter/
https://www.extremetech.com/extreme/162289-light-stopped-completely-for-a-minute-inside-a-crystal-the-basis-of-quantum-memory
https://en.wikipedia.org/wiki/Dark_energy
https://en.wikipedia.org/wiki/Dark_matter
https://en.wikipedia.org/wiki/Photon
https://en.wikipedia.org/wiki/Quantum_superposition
Image I:https://gadgets.ndtv.com/science/news/universe-dark-matter-mass-ucr-galaxy-clusters-2303124
Image II:https://www.researchgate.net/figure/A-diagram-of-the-electromagnetic-EM-spectrum-and-its-relevance-to-glucose-NIR_fig1_331625727
https://thoughtandmachines.blogspot.com/
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