Are gluons the wave movement that surrounds the superpositioned and entangled quarks?

The model of superpositioned and entangled particles

Gluons are the elementary particles when they are out from protons and neutrons. But the wave-particle duality means that it is also the wave movement. So could the form of gluons the wave movement when they are inside the proton and neutron? 

Wave-particle duality means that all particles are also particles and wave movement. First, that ability was seen in photons and the light was proven to have particular and wave movement forms. But then the wave-particle duality proved to be a universal phenomenon that happens in the quark-size world. 

The thing is that things like quarks and electrons can turn to wave movement and particles don't mean that any other things other than elementary particles can turn to wave movement and back. The reason why the proton cannot travel through the black hole. Is that the black hole will separate its quarks away from the structure. But quark an electron can make that thing because they have no sub-particles inside them. 

Protons and neutrons are the particles that are forming of the quarks. And between quarks are traveling mysterious particles called gluons. Gluons are the things that keep quarks in form. The question is could it be possible that gluon is more wave movement than some kind of particle. Could it be possible that the gluons are traveling inside the protons and neutrons by the form that is like "8"? That could mean that the gluon is the power field that is traveling between the superpositioned and entangled particles. 

If the gluon is the power field or bite of wave movement that acts like the wire that connects particles called quarks together. That thing would explain why protons and neutrons are splitting. When those quarks are rotating inside that quantum wire they are delivering wave movement through the quantum space.  So the thing that makes the proton and neutron disappear is the quantum friction. That thing causes the wave to move away from that thing. 

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

https://en.wikipedia.org/wiki/Wave%E2%80%93particle_duality

When the energy stress to the structure ends. The particles release the extra energy as radiation.

That radiation burst pushes particles away from each other. And that is the thing that breaks structures. 

The extremely powerful radiation can destroy even the neutron star. The idea is that the high-energetic radiation burst is hitting the neutrons that thing loads them with energy. And when the energy is released the energy radiation will push those neutrons away from each other. The idea is that the neutron star turns to the extremely high-energetic neutron bomb. 

Neutron radiation is released in two stages. First, the neutrons are delivering electromagnetic wave movement. And if that wave movement is strong enough it pushes the neutrons out from the structure. 

The hitting energy load would not break the neutron structure. The moment when the radiation is breaking the structure. Is when the energy load is ended and the particles are delivering the extra energy away. This is one of the things that we must realize when we are talking about energy and how it affects particles. 

If we are thinking that the energy load that is targeted to the object is positive energy. And the energy that comes out from the object is negative energy we must realize that the energy that travels in one direction is not breaking structures. But when the direction of the energy is turning that is the thing that breaks the structures. 

https://thoughtandmachines.blogspot.com/