Writing about graviton and theoretical quantum particles

Writing about graviton and theoretical quantum particles

Could there be the thing, what is called as "antigravity"?

Researchers know that every single particle in the universe has a mirror particle. Or maybe we should rather say, researchers, believe that every particle in the universe has its antiparticle because nobody has claimed to find antiphoton. So there is one very interesting thing, what scientists have thought, and that question is: has every four fundamental base forces (1) (gravity, electromagnetism, and weak and strong nuclear force (Color force) of nature also their anti force. 

So is there the antigravitons in the universe? (2) That means that there would be one of the most interesting effects, what could be possible, the antigravity. In that case, the graviton, what is theoretical particle would have the mirror particle, which would act the opposite way with gravity. The thing is that we don't know much about gravity. We don't know about the direction, where the gravity effects. 

Theories are very difficult to make if we cannot see, what we must model. And in the case, when we are making theories of gravity, in the key role is the hypothetical particle known graviton. Every single time, when we are making theories about gravity, we have begun from the theorem, that because of every other base forces in the universe has the transporter particle, also gravity must have that particle. 

Antigravitons are making antigravity possible?

So how gravity effects? Does it pull or push objects? But every theory begins that at the first the object shoots the graviton to another object, and then the superstrings would pull them together. That means that the objects interact with other objects, but then we have one little thing, what we ever thought? Does the gravity field of the object expand like some radiation? 

That means that gravity is like radiation, but making sure about that, we should find graviton. And graviton would be the super photon. Or is that field stable? In the last case, that thing would give a chance to create the hypothetical graviton rocket motor, which is so extremely powerful, that even the photon rocket would look like a moped. But the problem is that we don't have a single observation about gravitons. 

When scientists found that neutrons are scattering, that was the beginning of the endless lists of theories and calculations, what purpose was to find the reason, why quarks are scattering neutron, and that thing has created an idea what is called "dark energy". The thing is that the outcome energy would keep the quarks in the structure, and the internal energy would push those particles away from each other. 

The thing, that is destroying neutrons is fascinating because it would give the key to an endless energy source or even the ability to break the gravity and create a fully operating antigravity device. The idea of dark energy is basing one theory that in the Big Bang the gravity was turned to its mirror force, and started to push particles away from the center of the Big Bang. 

And that thing has caused the conduction to theories that the graviton, theoretical particle, what transmits gravity would also have mirror particle, so-called antigraviton. That thing would revolutionize technology and science if we would someday find those particles. The existence of antigravity is an interesting theorem because that thing would make some science fiction stuff possible. 

(1)

https://www.space.com/four-fundamental-forces.html

(2)

http://curious.astro.cornell.edu/about-us/137-physics/general-physics/particles-and-quantum-physics/813-what-is-a-graviton-intermediate

Image:

https://www.techexplorist.com/wp-content/uploads/2019/11/gravity18.jpg