What if hypothetical tachyons are behind the gravitons?

"Candidate Higgs boson events from collisions between protons in the LHC" (Wikipedia, Higgs boson)

Graviton should exist. It is a hypothetical transmitter particle that transmits gravitation. That is the theory of the gravitation. But graviton may be a fermion. In that case, a graviton could be the small, quantum-size black hole that forms quarks or gluons around it. 

Or maybe a graviton is a quantum-size black hole between a gluon and a quark. The graviton form is a mystery because nobody saw it. In some theories, free gravitons are the WIMPs, also hypothetical dark matter particles. 

Could the so-called hypothetical superstring the tunnel, that also a hypothetical faster-than-light, tachyon particle leave behind it?

There is the possibility that graviton just sends gravitational waves. In some models, gravitational waves are extremely small skyrmions. That travels around superstrings. Those hypothetical superstrings could be the tunnels that also hypothetical tachyon particles leave behind them. 

But graviton could also be a so-called quasiparticle. That quasiparticle would form when another hypothetical particle, tachyon travels across the universe. 

The problem with hypothetical tachyon is this. It is too fast. And high-energy objects that it can scatter. The tachyon would tunnel itself through even elementary particles. And that causes the theory that maybe tachyon and graviton are the same thing. When a tachyon hits a particle from forward it forms a small hole in that particle. That thing could be the quantum low pressure or quantum shadow. That pulls particles forward. 

Then tachyon acts like a bullet and takes a small part of the particle's internal quantum field with it. When tachyon travels out from another side of the particle it transfers energy to the backward of a larger particle. When that energy travels to the particle's front side, it pushes the particle forward. The tachyon could be extremely small. And high-energy particles that are far smaller than gluon. Maybe those hypothetical tachyons exist between quarks and gluons. 

Theoretically, tachyons could exist. However, the problem is that their energy level is too high that they can interact with other particles. That means Tachyon would be in the 4th. dimension.

If the tachyon hits the photon. Its energy level can decrease so much that it can interact with 3D particles. But that means the tachyon turns into the photon immediately. 

But in some models, hypothetical faster-than-light particles called tachyon could be the thing that forms graviton. If that particle is real it could form a hole in the quantum field. That hole could be similar to an electron-hole or a positive electric field that makes an electron orbit it in exciton.

If that faster-than-light particle exists it's impossible to see that particle itself. But it can leave a track in the quantum field. That track would be the small vacuum where those quantum fields fall. And then those quantum fields impact in the middle of that track or tunnel. If that tunnel turns into a spiral form it could create a small wormhole. When that small tunnel collapses it sends a small energy impulse, that could explain dark energy. 

 If a tachyon hits photons it releases its energy to them. And that thing can form the energy wave that is dark energy. To prove the existence of tachyon researchers must find photon that comes from nothing. 

So that means tachyon would be a photon with an extremely high energy level. The tachyon theory goes like this. Tachyon's energy level is so high that it cannot interact with other particles. In that model, tachyons would be in the 4. th dimension. And they would be the lowest energy particles in that dimension. 

If a tachyon's energy level is too high, and it hits a photon it can also raise the photon's energy level so high, that it turns into a tachyon. So photon loses its ability to interact with other particles. And in that case, there would form the hole in the universe or quantum field where that photon was. Confirmation of tachyonic interaction can also be done by observing photons and seeing if some of them vanish. 

Theoretically is possible to turn photons into tachyons by pumping energy into the stopped photons. 

The reason why we cannot see a hypothetical tachyon is when that particle starts interacting with the universe or quantum fields it turns into a photon. So, we cannot see the tachyon when it's tachyon. When that hypothetical particle turns into a photon, it sends an energy impulse, that is similar to Cherenkov radiation. In that model tachyon is the thing that sends so-called dark energy. 

Could vaporizing black holes form a tachyon? 

But the question about tachyon is what it is. In some models, the photon that turns into the super-high energy state could turn into a tachyon. Or when a photon stretches into the wave movement, it starts to spin around its center point like a helicopter's rotor. And that thing makes the photons most out point travel faster than light. 

But in some models, the particle can cross the cosmic speed limit in another way. When a particle drops into a black hole its speed is as high as the escaping velocity. So if a large part of the black hole suddenly vaporizes and the size of the event horizon turns smaller. It's possible that when a black hole is lost from around the particle, it continues to travel with speed. That is higher than the speed of light. 

The thing, that makes this model interesting, and difficult to prove is that it also means that a photon can transform into some other particle, and maybe that particle is between a photon and a Higgs boson. That process requires the photon will turn into a "ball" and lose its ability to transform between particle and wave movement. But nobody saw that transformation. 

It's possible that the particle. That we call Higgs boson is not the same that Higgs originally predicted. Some researchers say that the energy level that the large Hadron collider at CERN cannot reach is the energy level that can "shoot" the original Higgs boson out from particles. Another question is could there be some particles between photons and Higgs bosons?

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

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

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

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

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

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

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

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

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

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