Are the mysterious gravitons and dark matter the yet unknown states of well-known particles?

There is the possibility that dark energy is multiple wavelengths of electromagnetic radiation which has many sources. Those sources can be Higgs bosons, free quarks, and gluons. The quantum channels or quantum tornadoes can also send radiation. 

Also, there is the possibility that the supermassive black holes are sending radiation whose wavelength is extremely low. Also, the mesons are sending some kind of radiation when they are splitting. 

When we are looking at the image of protons and neutrons. We can see also gluons. Gluons are transporter particles of a strong nuclear force. The gluons are traveling in the protons and neutrons between quarks. And behind those particles is the channel. When those subatomic particles are jumping between quarks. They are forming the vacuum behind them. But also those particles are sending the electromagnetic impact wave. 

That impact wave is similar to the pressure wall the objects send when they travel in the air. But the electromagnetic or quantum cone is made of electromagnetic wave movement or quantum field.

So the thing is that there is the possibility that the source of the dark energy is the dark matter. That term means that dark matter is the material whose only known interaction with material is gravitation. But there is the possibility that dark matter is the free quarks and gluons. When quarks and gluons are sending radiation the wavelength of that radiation is the same as the diameter of quarks and gluons. 

That means we have difficulties detecting that radiation. Also, short-living particles like Higgs bosons are sending radiation with their unique wavelength. That means that there is the possibility that dark matter is well-known, but maybe short-living particles. The thing is that the quantum channels behind the gluons are also sending wave movement. The reason why we cannot observe dark energy is that. We don't know what particle sends that wave movement. 

The same thing is the graviton. The mysterious hypothetical gravitation transporter particle. There is the possibility that it is some kind of gluon. Or maybe it's the so-called free gluon. Normally the gluons exist only in the protons and neutrons. 

There they transport the strong nuclear force. But there is the possibility that somewhere in the universe is free gluons. 

Things like Higgs bosons are sending wave movement during their short lifetime. When that particle is turning to wave movement the wave movement that it sends remains. 

There is another theory of the origin of dark energy. And that thing is that the origin of that mysterious wave movement is in the small "quantum vacuums". Those miniature WARP bubbles are pulling wave movement through it. Even those bubbles are smaller than electrons. 

They act like other low-energy areas. Energy travels always from the higher energy level to the lower energy level. 

The wave movement travels through those bubbles and hits the quantum field at the other side of that bubble. That impact sends the radiation. And that means there is possible that this kind of phenomenon can also form dark energy. The quantum-size black holes are also curving the wave movement. And that causes the energy flow. Also, things like supermassive black holes are sending the radiation which wavelength is the size of their event horizon. 

So how does this connected with dark energy? Here I repeat the words from the begin of this text. There is the possibility that dark energy is multiple wavelengths of electromagnetic radiation which has many sources. 

Those sources can be Higgs bosons, free quarks, and gluons. The quantum channels or quantum tornadoes can also send radiation. Also, there is the possibility that the supermassive black holes are sending radiation whose wavelength is extremely low. Also, the mesons are sending some kind of radiation when they are splitting. 

Even if we don't know quark and gluon nebulas there is a possibility. That those nebulas are existing somewhere in the universe. Outside the supergroups of galaxies might be a state of matter that is existing only in extremely cold and stable conditions. There is the possibility. That there is a large mass of free quarks and gluons. If the distance of those particles is too high. That causes gluons cannot tie the quarks to one entirety. 

And that denies the forming of protons and neutrons. Maybe, those gluon and quark clouds exist only in the world where the disturbance and level of wave movement are minimal. And the distance of the particles is far higher than in our galaxy. Maybe James Webb-telescope gives answers for that kind of thing.