Is graviton the quantum vacuum that forms when a hypothetical particle called tachyon drops from the fourth dimension?

Above this text is an image of the nuclear test. The thing that causes major damage in the nuclear explosions is the vacuum. When the fireball rises it pulls air after it. And that airflow is the thing that destroys things.

When we are moving this phenomenon to the quantum world, we can ask the question. Could gravitation be a similar effect? We would think that the graviton is the quantum vacuum that forms when a hypothetical tachyon particle falls from the fourth dimension.

In that process, the tachyon sends the ring-shaped wave motion. So the graviton is the tensor. That means graviton is the particle or channel that connects the third and fourth dimensions. 

So is the graviton the electromagnetic vacuum bubble where wave motion falls? The thing is that there question in gravitation is this which side of the particle the electromagnetic vacuum forms? When we are thinking that the graviton is a similar effect to the nuclear explosion we can think that there is repelling effect. 

If we are thinking that the gravitation is the wave motion that forms when the tachyon falls from the fourth dimension that means at the first form the electromagnetic shadow at the front of the particle. That effect moves particles forward. And then electromagnetic vacuum starts to pull it backward. 

Or let's take it again with higher accuracy. When gravitational waves form electromagnetic or quantum vacuum at the opposite side of the particle it pulls the wave moves away from it. If that vacuum is too short or short-term that wave motion of the particle denies its movement. And then the vacuum covers that effect. So the gravitation has the repelling or contaminant effect. But that effect is too weak for the measure. 

When the ring-shaped wave motion leaves from the graviton point or points where the tachyon falls from the fourth dimension it forms the ring-shaped wave movement. That wave movement forms the electromagnetic or quantum vacuum at the front of particles. And that means the gravitation has a repealing form. But that repel or contemning effect is so short-term and weak that the vacuum effect of graviton covers it. 

When that wave motion starts to travel in the third dimension. It forms the short-term electromagnetic vacuum. And that vacuum could be a graviton. So that thing causes the effect that is called gravitation. The thing that makes the gravitation interesting is that it's the only interaction that affects long distances. 

Gravitational waves are shown that gravitation is the wave motion like all other interactions. There are three special things about that is that force. Gravitation affects long distances and gravitation is neutral. And the third special thing in gravitation is that it has no repelling effect. Electromagnetism doesn't affect gravitation. And that means there is some unique particle that sends gravitational waves. But there is the possibility that graviton itself has poles.

And that means the thing that sends the gravitational waves is the particle that has a unique size. When gravitational-wave travel in the universe nothing disturbs it. Or actually, nothing else than other gravitational waves can disturb that wave motion. 

That thing means. That there is some very small, or unique size high-energy point that releases gravitational waves. And there is the possibility that the gravitation is the effect that forms when the wave motion falls into the electromagnetic or quantum bubble. 

The idea is that the fourth dimension is the energy level that denies interaction between material in the third dimension and the fourth dimension. When the difference between two particles' energy levels is high enough. 

That denies the interaction between them. So when we are talking about that tachyon drops from the fourth dimension that means that this particle just loses its energy. In this model, the dimension is the attribute connected with the material and the energy level of the material. So the third and fourth dimensions are certain energy levels. 

The graviton could be a so-called ghost particle that forms when another hypothetical particle called tachyon falls from the fourth dimension to the third dimension. In that process, the tachyon delivers its energy and forms the shockwave that travels through the universe. At that point where the tachyon comes down from its energy level forms the electromagnetic vacuum that pulls wave motion to it. 

The nuclear explosions have inspired the model of the graviton as the electromagnetic or quantum vacuum. When a nuclear weapon detonates it causes the outgoing radiation and pressure wall. But during the detonation, the fireball starts to rise. And that rising fireball causes that under it is the vacuum that pulls air to it. 

When that hypothetical tachyon hits some particle in the third dimension it raises the energy level of that particle. In that case, the energy level of that other particle rises, because the tachyon transfers energy to it. In that case, that particle can jump to the fourth dimension. 

But if that interaction would not happen tachyon transforms into some other particle. In that process, the tachyon forms the ring-shaped quantum field. And there is a short-term quantum vacuum in that ring-shaped power field. 

The thing is that when some particle will "want" to jump to the fourth dimension it requires a certain energy level. We can think that energy is like a pillar under a particle. 

The particle cannot reach the energy level that is high enough to jump above our third dimension from the third dimension. Rising energy level to high enough requires that the particle will go near tachyon and then tachyon must touch. 

The idea of the fourth dimension is that is the certain energy level that moves particles invisible to us. So what is the fourth dimension? It's the energy level that denies the interaction between a particle that is in regular or third-dimensional energy level and a particle that is at the energy level of the fourth dimension. 

The reason that causes that effect is that the energy flow from a particle that is at a higher energy level to a lower energy level is too high. And that energy flow pushes the lower-energy particle away. When particles are forming the bonds they require that the transportation particle of a certain nuclear force or fundamental interaction will connect itself to the particle. 

If the energy level or the spin of the particle is too high the outcoming radiation or wave motion will push that transportation particle away. Or if the particle turns "smooth". That denies the interaction between particles like quarks and baryons and transporter particles like gluons and "W" bosons. 

That denies that the regular quarks and atomic particles cannot form the bonds between those "cousins" that are too high energy levels. So for making interaction the energy level of the particles must be at a certain energy marginal. If the difference between energy levels of two particles is too high that denies their interaction or at least their ability to create stable bonds.