The graviton: does it exist?

When we look at the image of the photon we see the ring-shaped structure. That structure can focus energy in the middle of it. That means the answer to the mystery of graviton can be found in the middle of the photon. That means graviton can be the point where the photon focuses energy from the Higgs field. Photon has two forms. 

The particle and wave movement forms. When we look at the photon's structure. It's possible. When the photon takes the wave movement it travels through that ring-shaped particle-photon. That thing can transmit energy or information to the wave that travels through the photon. 

The String theory describes a graviton as a quantum-size black hole. And the string or superstring is the quantum tornado through the Higgs field. 

There is a model that a graviton is a quantum-size black hole. That thing can be found in the middle of the photon.  That thing makes the Superstring theory true. In that theory, so-called superstrings form elementary particles. In the String model, The superstring is an extremely thin electromagnetic field. And that means the superstring can be a quantum tornado in the Higgs field. 

In some versions of the String Theory, the quantum-size black hole makes the quantum tornadoes through the Higgs field. And that quantum tornado would be the superstring that forms all material. The superstring forms a whisk-shaped structure in elementary particles. And we see that structure as elementary particles like quarks and other fermions. 

But that is only one of the possibilities that can explain why nobody found graviton. 

There are four fundamental interactions in the universe. 

Strong nuclear force

Weak nuclear force

Electromagnetism 

Gravitation. 

Graviton is the point that sends gravitational waves. That point is not necessarily a particle. It can be the quasi- or virtual particle. The virtual particle means the energy field or quantum point that behaves like a so-called real piece. 

Graviton is a hypothetical boson that should transmit gravitational waves. Nobody has seen that particle yet. Sometimes people ask: can gravitational waves form without that transmitter particle? 

The gravitational wave is gravitational wave movement and it should behave like all other fundamental interactions. It should have particle and wave movement forms. 

Gravitational waves are wave movements that transmit gravitation. Just like all other fundamental forces have. All other fundamental interactions have waveform and particle form. So, there must be some structure that sends that radiation. The wavelength of waves depends on the objects that send them. It's the same as the diameter of the object. That sends the wave movement. 

All other fundamental forces have a particle that transmits the radiation or wave movement. 

That means: Gravitation should also have that transmitting particle. But there are no observations about that kind of particle. So could gravitation have only wave movement form? 

But the graviton must not be a particle like some gluon or W boson. It's possible. That graviton is some kind of virtual particle. So if we describe graviton again we can say that graviton is the point that sends gravitational wave movement. 

That point can be the point in the energy field or some kind of energy dense in the energy field. That point sends wave movement so often that it pushes other wave formations backward. As I wrote. At the beginning of this text. Graviton can be the point in the photon. That thing explains why we cannot see that thing. 

Another thing that can make the gravitational waves is the particle itself. The model is that all elementary particles have a structure that looks like a whisk. That whisk is the superstring. When a particle spins the superstring pulls Higgs field into it. When that superstring is the hypothetical smallest part of the material gets an energy level that is higher than the environment. 

That thing explains the material destruction or turn into wave movement. In that model, the superstrings form the standing wave between them. Reflection from those fields pulls them horizontally. And that means the material can send two versions of waves. The energy that particles send as an entirety. And the energy that the individual superstrings send. 

The energy that. Particles sent as an entirety cover the energy that individual superstrings send. In some models, the graviton is the quantum-sized black hole. But those things are only hypothetical models.

https://bigthink.com/starts-with-a-bang/gravitons-exist/ 

https://scitechdaily.com/quantum-leap-scientists-reveal-the-shape-of-a-single-photon-for-the-first-time/

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