Maybe the c or charm quark plays a bigger role in the protons and neutrons than we expected.

C, or charm quark's energy level is extremely high. That means it acts like all other higher energy particles. So when the particle's energy level changes, its shape changes. And that means the energy flow out of the particle turns its shape into another particle. 

The forces that are forming protons and neutrons are repelling and pulling those particles at the same time. The cosmic inflation or expansion of the universe causes the pressure of quantum fields is turning weaker. And that causes the distance of quarks is increasing. 

When we are talking about the size of the particle, we mean the area where the particle affects. And that means the energy level or the "shine" determines the pool where the certain particle dominates. 

So when we are looking at high-energy particles like c quarks we must understand that this particle vaporizes or send wave motion to other quarks and gluons. When the particle turns to wave motion or vaporizes it forms an electromagnetic vacuum around it. 

Particles are not sending wave motion all the time. The wave motion comes out from a particle only when its energy level rises higher than its environment. When that energy level rises higher than the environment the particle sends the energy quantum that makes the electromagnetic vacuum around it. 

Also, other quarks are sending wave motion. If c quark will go to close enough to other quarks those electromagnetic vacuums are closing. And the quantum fields of those particles are melting together. 

In that case, the gluon will come from somewhere in that channel. The thing is that the force of the electromagnetic vacuum must be higher than the repelling effect. And that causes the quarks and gluons are making entirety called protons or neutrons.  

When the universe expands the quantum field that is pulling material to the form turns weaker. And that means the distance of the quarks increases. So the quarks are shining or vaporizing faster and faster. That means the repelling force of energy impulses coming from the turns is stronger. That increases the speed of cosmic inflation. And finally, all material turns to wave motion. 

Does the gluon or gluons orbit quarks "8"-shaped or regular orbiting trajectory?

 

Above this text is an image of Neutron (Image 1). The effect of the strong interaction strong nuclear force marked as a "Y"-shaped structure. But what is the thing that makes those quarks stay in one entirety? The  2 down quarks and 1 up quarks. Along with gluons, those quarks form neutrons. 2 Up quarks and 1 down quark with gluons form protons. The gluons connecting those particles to their entirety are called neutrons or protons. 

The strong interaction is not the interaction between quarks. It is the interaction between quarks and gluons. But why gluons are keeping the neutrons and protons as one entirety. There is the possibility that the gluon is orbiting quarks by the eight-shaped trajectory. And that thing means that the pressure of that particle is pushing the quarks to one entirety. Those trajectories are drawn in image 2 by using black circles. (Image 2)

When we are thinking about image 2. There are marked possible trajectories of gluons. The trajectories could be "8"-shaped. But gluons can also orbit those quarks with regular orbiting trajectories. That causes an idea that could there be the forms that we can call "atoms in atoms". So could some elementary particle be the "miniature atom"? 

Why do I think like this? The reason for that is that. If the gluons are moving or jumping between those quarks. That could destroy the proton or neuron. So there must be some kind of electromagnetic vacuum in the middle of those quarks. Or the gluons would orbit around those quarks that cause their quantum fields are pushing quarks together. 

Image 2: 

Explanation 2. 

Could the mysterious graviton be the particle in the middle of the proton or neutron? The theory is that graviton could just be the quantum-size black hole. 

About the question of why protons and neutrons are in their form? In that case. The quantum-size black hole or hypothetical graviton pulls superstrings from quarks inside it. That thing causes the radiation that is called dark energy and the expansion of the universe. 

But that requires that graviton exists. The hypothetical quantum-size black holes are acting just like large black holes. When they are pulling something inside them. That thing causes radiation. So could the graviton be the quantum-size black hole?

But there can be some other interesting explanation for that thing. And that thing is the most fascinating in the world. Maybe there is graviton in the middle of protons or neutrons. That thing means that the graviton could be a quantum-size black hole. That pulls the strings from the quarks inside it. 

Because energy or superstrings are traveling only in one direction. That is in the middle of the quarks that cause the recoil effect. The recoil effect keeps those quarks at a certain distance from the center of the particle. And the balance between the pushing and pulling effect keeps those quarks in one entirety. 

But if quarks are like small yarn balls they are losing their mass all the time when that quantum-size black hole will pull those superstrings in it. And that causes the radiation. 

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

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

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

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

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

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

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

https://thoughtsaboutsuperpositions.blogspot.com/

Does the dark matter has a particle form at all?

Dark matter means the mystery gravitational effect. The thing that forms this effect can be the material. Which elementary particles have a different size than the elementary particles of visible material have. 

That thing means that the wave movement that those particles are sending has the wavelength that makes it invisible. Another version of dark matter is that thing has no particle form at all. That means dark matter is the wave movement called dark energy. 

Image 2 is the neutron. The gluons jump between quarks. Neutron is formed of two down quarks and one up quarks and gluons. The image could portray a proton. Because it has a similar internal structure with a neutron. But the proton is formed by one down quark and two up quarks and gluons. 

The wavelength that those quantum tornadoes or rotating quantum channels are sending. Would be different than other particles sending. That thing makes the wave movement invisible. And maybe axions are hiding in those quantum tunnels. There is the possibility that there is a quantum vacuum in those tunnels. And that means outcoming energy pushes those quarks to one entirety. 

Image 2: https://en.wikipedia.org/wiki/Neutron

The mass of hypothetical axion-particles could tell the form of the dark matter. The thing is that the cosmology is that the dark energy is one of the mysteries that can solve another mystery. The mysteries of the dark universe is the thing that can solve where the material came from. 

The name axion of that theoretical particle is coming to an idea that the form of that thing could be elongated. Theories are telling that material is formed in wave-particle duality. That was caused by the mysterious event called  Big Bang. The question about the Big Bang is interesting. Was that thing released only energy that impacted with wave movement that already exists? And that impact caused the wave-particle duality that formed the visible universe. 

The thing is that dark matter is the mysterious gravitational effect. That means that there is the possibility that dark matter has not necessarily have a particular form. The dark energy or a dark wave movement that affects some extremely small particles can cause mysterious gravitational effects. That wave movement can affect the gluons and make them heavier or put them to a higher energy level than they should. 

The form of Dark matter is interesting. And maybe quite soon the researchers can answer two questions.

1) Is dark matter similar material with the visible material? That means the dark matter could turn to wave movement and otherwise. But if dark energy is the same thing as dark matter. That means the dark energy could create the gravitational effect. 

So that means the dark matter would not necessarily have the particle form. The dark wave movement that affects the gluons or some superstrings could cause the mysterious gravitational effect called "dark matter". 

2) And can the dark matter form atoms or molecules? Like visible material? The galaxies where is no dark matter is an interesting detail. 

That tells that dark matter can form the structures like visible material. But are those dark matter structures some kind of clouds of nebulas formed of dark matter? Or is there some kind of more complicated structures that are formed of dark matter? 

The weakness in the Big Bang theory is that it doesn't answer where the thing that exploded came from? 

The Big Bang theory is always the solution for the origin of the material. But where did the material or wave movement  Big Bang released come from? The moment of the Big Bang is point zero in the universe's history. But what happened in the point minus one (-1)? 

There was something that released the material to the universe. Or is it so? If we think that dark matter is the dominating form of material. There is a possibility that the crossing wave movement turned the dark matter into visible material. 

So if the dark matter is similar material with the visible material. The answer for the Big Bang can cause because of the wave-particle duality. But getting acceptance of this theory dark matter should have a similar particle form with the visible material. 

There is the possibility that the wave-particle duality forms when the quantum fields of the particles will touch each other. That thing can cause quantum friction or quantum spark. That thing will turn the quantum field or the superstring that forms that quantum field turns to a roll or yarn ball-shaped structure.  

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

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

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

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

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

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

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

https://thoughtsaboutsuperpositions.blogspot.com/

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://webelieveinabrightfuture.blogspot.com/

Are the gravitons primordial black holes inside protons, neutrons and electrons?

Above: "Three colored balls (symbolizing quarks) connected pairwise by springs (symbolizing gluons), all inside a gray circle (symbolizing a proton). The colors of the balls are red, green, and blue, to parallel each quark's color charge. The red and blue balls are labeled "u" (for "up" quark) and the green one is labeled "d" (for "down" quark)". Wikipedia/Quarks)

If we want to guess the certain place of the hypothetical graviton in the material there are two possible places. The place where the researchers can find hypothetical graviton is the center point of the proton and neutron. Or another possible place is in the middle of the quarks. In that version, the quarks are like the ball of yarn, like electrons. And they are formed when superstrings are forming the ball around the extremely small primordial black hole. The quantum gravity of that primordial black hole would pull the protons and neutrons together. 

Can the graviton be found just in the middle of the proton and neutron? The idea is that when gluons are jumping in the proton and neutron. By using the trajectory that looks like a triangle. That thing can from the primordial black hole in the proton and neutron. That means the graviton could be the thing that formed from the wave movement. 

So does graviton even have the physical form? Is it the primordial black hole? The extremely small-size primordial black hole is more like a power field than some kind of particle. That power field is turned to the package like a particle or ball of yarn. 

So is the annihilation the impact of two primordial black holes that are locating in protons or neutrons? In that idea, the electrons are the balls of the superstrings. That is forming a ball around the primordial black hole. In that case, the superstring is denying the eruption of the black hole.

And that extremely small black hole will get its energy from the spin of electrons. In that case, the size of the black hole is so small, that it cannot curve the wave movement inside it. Or the superstrings are forming the ball near that miniature singularity. That is smaller than any particle in the world. The same thing that is written about electrons can transform into quarks. 

If the graviton is the primordial black hole inside the proton or neutron that could explain, why it's so hard to detect. The primordial black hole requires energy pumping all the time. And in this scenario. The primordial black hole that is smaller than quarks or gluons is getting its energy from the movement of the gluons. If that movement is stopping the primordial black hole vaporizes immediately. 

Can we find graviton in the place where nobody predicts to find that kind of particle? The idea is that in the protons and neutrons is the group of quarks. And between those quarks are traveling particles called gluons. The gluons are something like electrons, but their size and effective range are different. The gluon is the transmitter particle of the strong nuclear force. 

So in the cores of protons and neutrons is the "quantum flashes of lightning" between quarks that are forming a similar effect with lightning. But in the smaller distances. When the gluon is traveling it sends energy waves both ways. The energy that the gluon gets is similar to kinetic energy with the balls that people are throwing. 

But the scale of this thing is extremely small. Gluons are jumping inside protons and neutrons. And then the Law of Energy Indecision means that the gluon must take energy load from somewhere or they will stop and material is disappearing. So is the energy source of the gluons some kind of primordial black hole? And is that black hole the graviton hypothetical transportation particle of the gravitation. 

The movement energy of gluons travels outer ways or to the core of protons and neutrons. And also the part of the energy that is stored in muons while they are jumping between the quarks is traveling in the middle point of the proton or neutron. So there is the possibility that there is graviton in the middle of protons and neutrons. 

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

()https://en.wikipedia.org/wiki/Graviton

()https://en.wikipedia.org/wiki/Primordial_black_hole

()https://en.wikipedia.org/wiki/Standard_Model

()https://en.wikipedia.org/wiki/Quark

Image: ()https://en.wikipedia.org/wiki/Quark

()https://kimmoswritings.blogspot.com/