The gluons are transmitter particles of the strong nuclear interaction.

The shape of gluons is interesting because the spin of that particle is one. That means gluon can rotate full lap. So there is the possibility that black holes are like gluons. And sometimes in my mind has become an idea that maybe gluons can form stars that are more exotic and heavier than hypothetical quark stars. 

The strong nuclear force or strong interaction is the force between quarks and gluons. The gluon is between quarks and maybe the mysterious and hypothetical graviton particle hides between those particles. 

The reason why gluons spin in 1 could be caused by its location. The gluons are between quarks and maybe they are sending the radiation the same way as black holes. When that radiation hits quarks it causes reflection. And then the radiation would make a channel between quarks. 

The interaction between quarks and gluon is introduced in the next diagram.

8>>>>>[]<<<<<8

8<<<<<0>>>>>8

8>>>>>[]<<<<<8

0=A gluon

>>or<<=Direction of energy flow. 

[]=impact point of wave motion

8-Quarks

0= A gluon-particle that sends wave motion. There is a possibility that this same structure repeats in the interaction between gluon and hypothetical graviton-particle. 

The graviton particle is the particle form of gravitation. In the same way, as the photon is the particle form of the light graviton is the particle form of gravitation. 

>>and<< = Direction of energy. The energy that travels out from the gluon makes the hole in the radiation. That comes from quarks. The radiation is wave motion, and that channel keeps the structure in its form. 

[]=Impact area of radiation that reflects from quark. The graviton may be forming at that point. The gravitation is the wave motion.

And when gravitational waves are impacting each other. That thing makes it possible. That the impacting gravitational waves can form the graviton particle. In that model, the graviton is like a yarn ball of gravitational waves.

8=Quark. In this diagram, there are two quarks. And the reason for that is gluon is so much smaller particle than a quark. 

The interaction of two gluons in the hypothetical gluon star might explain the form of black holes. When those gluons are sending wave motion that is impacting with each other. This causes the wave or energy level of the wave motion is rising until it can transmit somewhere. 

The thing is that sooner or later the wave motion that leaves from the gluons can form the condition where gravitons are starting to grow. In that model gravitation just closes itself in the structure that is called the singularity. 

There is a possibility, that the black hole or some of the black holes are forming gluons. The reason why gluon can spin full lap is that it's in the channel. That channel makes it possible that the gluon will not interact with the outside world. Or that channel can be like a tornado that takes gluon with it. 

The thing is that the quantum field around quarks is also isolating gluons from the outside world. The electromagnetic vacuum in that channel keeps the protons and neutrons in one piece. 

https://en.wikipedia.org/wiki/Gauge_boson

https://en.wikipedia.org/wiki/Gluon

https://en.wikipedia.org/wiki/Strong_interaction

A couple of words about reflection. And neutron radiation.

When electromagnetic radiation hits a particle that particle sends it back. The thing is visible in neutron bombs. When the small (c. 0,5kt) thermonuclear weapon detonates. It sends neutron radiation. The radiation pushes the quantum field of the neutrons inside. If the neutron radiation is strong enough it will cause the reflection from the receiving neutrons to push particles away and destroy the atom's nucleus. 

Another version is that the nucleus of the atom sends radiation reflection and that reflection pushes electrons away from the core of the atom. That turns an atom into an ion. The force of reflection depends on how powerful the energy stress is. 

The gluons are acting like small springs. And after the radiation stress. Those small springs kick the quantum field of the neutron outside. That thing causes the quantum-size electromagnetic pressure wave. And that electromagnetic pressure wave is called "neutron radiation". 

The fact is that all other particles are sending similar radiation if they face radiation stress. When we are thinking that we will give radiation stress to elementary particles like fermions the reflection would be weaker. There is no known inner structure in those particles. 

When we are thinking about the quantum field. That is pushed inside. When energy stress ends quantum field travel outside the particle. The speed of that quantum field determines how strong reflection is. So if the neutrons are stressed with radiation. 

That radiation stress must remove slowly. That thing decreases the speed of push of the quantum field. If the speed of returning of the quantum fields is high the level of the radiation impact is also high. Another thing that determines how strong the observation of reflection is is the size of the particle that sends the reflecting wave movement. 

If some quark is sending wave movement its wavelength is similar to the dimension of quark. The problem is that wave movement cannot reach quarks that are inside the quantum fields called protons and neutrons. Before the radiation will reach the atom's nucleus it must go through electron cores. 

So the radiation that comes out from quarks is not causing resonance in the quarks that are inside electron cores and their quantum fields. If that radiation would affect quarks that are inside the protons and neutrons that cause the case where the radiation of the quarks will push them away from each other. That effect erases the protons and neutrons immediately. The same way the oscillation causes vaporization of the water. 

So how to make a quantum eraser? The system could be the line of the quarks that are sending radiation that causes oscillation in the quarks. And that oscillation erases material. 

Reflection is the thing that makes material observable. If there is no reflection material is invisible. One of the reasons why the reflection of the quarks is hard to see is if the wavelength of radiation is too long the quantum field of quarks is pushing that radiation away. Or quark will just flow above wave movement. That means there is no interaction between quark and radiation which source is in larger size objects. 

In the case of reflection and radiation, most of the radiation would come from the electron cores of atoms. Neutron radiation is different than regular radiation because its source is in neutrons. The thing is that also other atomic and subatomic particles are sending similar radiation under the radiation stress. If the proton cloud or electron clouds impact electromagnetic radiation. They are sending similar electromagnetic wave movements with a neutron. For creating this kind of radiation those particles must separate from atoms. 

https://thoughtsaboutsuperpositions.blogspot.com/