The expansion of the gravity field would prove the existence of the gravitons. (Or could it make that thing?)

  

The expansion of the gravity field would prove the existence of the gravitons. (Or could it make that thing?)

If the gravity would be a similar fundamental force with three others it must have to repel effect. The fundamental interactions have four forms, gravity, electric interaction, and weak and strong interactions. The interaction means that the fundamental forces are affecting both directions.

The expansion measurement of gravity fields is difficult, but that thing would prove that gravity has a carrier particle called a graviton. Nobody has seen that hypothetical particle yet, but the reason why researchers believe the existence of that particle, is that every other fundamental force has the carrier particle. One version of the measurement of the gravity waves is that the gravity waves of the distant quasar are interacting with the radio waves of Jupiter's gravity.

So why gravity would not have the carrier particle as well as other fundamental forces? The expansion of the gravity field would prove that the gravity has the transporter particle and the thing that supports the theory that the gravitons are carrying the gravity are the gravity waves.

Gravity is not like other fundamental forces. The reason why the expansion of the gravity field is interesting is that the escaping velocity can be higher than the speed of the light. And in that point, gravity has no similar limits with the other fundamental forces, and that thing would give an idea that the graviton can also travel with a higher speed than the speed of the light.

So in this case the speed of the gravity waves is measured as the speed of the light. The reason for that is that the radio wave cannot travel faster than the speed of light. But what if we someday can measure the speed of pure gravity waves?

If we want to create the test, where the expansion of the gravity field is measuring one thing, what we should do is the gravity point. Measurement of the expansion of the gravity field is impossible if the central point of the gravity is existing. So in this test, we should create the gravity point. And that thing is very difficult, but not so difficult as many people think.

The thing that researchers must do is just pump the energy to the particle that hovers in the zero-gravity condition. And that thing could turn the particle to the condition, where its near to turn the black hole. Then the researchers must follow the change in the laser ray, that is pointed to that particle.

The speed of the gravity wave is measured. And that is the same as the speed of the light. But is it possible that some gravity waves are faster? The idea of this thing is that the gravity would turn its anti-force. And in this case, the power of the anti-gravity or mirror gravity is the same as gravity.

So if that hypothesis is true, the explosion of the black hole would travel at the same speed as the escaping velocity from the particle. But that thing requires that the gravity field can turn to the opposite form, and the gravity starts to repel the particles. So in this case the gravity would be like other fundamental forces and have the mirror-effect, as well as other fundamental forces, do have. But that thing requires more tests and research.

Fundamental interactions: https://en.wikipedia.org/wiki/Fundamental_interaction

Gravitational waves: https://spaceplace.nasa.gov/gravitational-waves/en/

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

Measurement of the gravity waves:
https://www.newscientist.com/article/dn3232-first-speed-of-gravity-measurement-revealed/

Image: https://www.newscientist.com/article/dn3232-first-speed-of-gravity-measurement-revealed/

https://curiosityanddarkmatter.home.blog/2020/11/28/the-expansion-of-the-gravity-field-would-prove-the-existence-of-the-gravitons-or-could-it-make-that-thing/