There is a possibility that dark matter is a particle that has no color charge. Maybe, those particles can form in cases where particles with the same quantum color like green and anti-green impact each other. That thing can also explain dark energy. The particles that have the same quantum color impact with their mirror particle, or particles that have the mirror color or anti-color annihilate.
So in the case of gluons with green and anti-green impacts, that thing should neutralize their color. That turns those particles colorless. If a particle loses its color it turns invisible. The grey or colorless particle can push quantum fields around it. Same way if the gluon has the same quantum color as the quark that it impacts it causes a repel effect. The idea is that as an example green field surrounds a green quark. And if the green gluon impacts that field it pushes it away from around it. That forms the crater in that field. When the field returns to that crater the impact forms an energy point and pushes the quark forward. If the gluon with blue color charge closes the same field that pulls the field to that thing.
The gluon has a quantum color like anti-blue and green. That means that the gluon’s color charge is a superposition of color and anti-color. Normally gluons cannot have the quantum colors green and anti-green because those mirror quantum colors neutralize each other. That thing forms the particle that has no color charge. And sometimes it is introduced that dark matter can be a particle with the same quantum charge as green and anti-green. When mirror colors are impacting that means those quantum colors neutralize each other. The neutralization process is quite similar to annihilation where a particle and its antiparticle pair turn into energy.
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"Fields due to color charges of quarks (G is the gluon field strength tensor) in "colorless" combinations.
Top: Color charge has "ternary neutral states" as well as binary neutrality (analogous to electric charge).
Bottom: Quark/antiquark combinatio". (Wikipedia, Color charge)
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The gluon can be the particle that has two heads like green and anti-blue. That means there is a possibility that a gluon interacts with its environment in a similar way to surfactants there are hydrophilic and hydrophobic heads. That interaction is on a much smaller scale than the molecule. When gluons' green heads turn to green quarks that thing causes a similar repel effect as electromagnetism. So the quantum color determines whether the gluon can turn into it.
When we think about the scale that the gluon acts on we can think about the situation where the gluon with an example green quantum color hits the quark with anti-green quantum charge. That can cause “lightning” but the particle can remain. But it loses a little bit of its quantum color charge.
That causes the idea that maybe there are two more quantum colors. Black and white. So, maybe the mysterious or mythical graviton has the black quantum color. The white is the colorless particle. But if the “black” quantum color exists that means the new natural interaction. So maybe black will be chosen to be the color of the fifth force transporter color. There is one model that can explain the graviton and why we cannot see that thing. The graviton itself would have the colorless quantum color.
The quantum field goes past the particle. And that forms the quantum shadow into its other side. That colorless particle is very hard to detect in the field. In some other models, the graviton is like the stick; there is two particles connected with each other. They might have very weak quantum colors. When those particles orbit each other that causes a situation where those yet unknown particles bind energy into each other.
https://en.wikipedia.org/wiki/Color_charge
https://en.wikipedia.org/wiki/Gluon
https://en.wikipedia.org/wiki/Standard_Model
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