Image 1)
In some theories, the Big Bang formed when gravitation turns to the opposite. But how time can turn the opposite? Maybe we can find that answer from inside the black hole. The black hole is the most dominant and powerful object in the universe. Even light cannot escape from there. The point where the escaping velocity turns higher than the speed of light is called the event horizon. The term Schwarzschild radius means the distance from the center of the black hole where escaping velocity reaches the speed of light. And the Schwarzschild radius is the point where the event horizon is forming.
The black hole is dominant and mysterious, but it's also a ball. Inside every ball is the point, where is no gravitation. That means there should be that kind of bubble that we can call as Schwarschild bubble inside the black hole. The idea of the structure of the black hole is simple.
That object looks like an onion. There are multiple cores inside that structure and each core is the speed multiplier or Lorenz factor. When an object falls into a black hole the gravitation will start to increase. And then in that environment in a certain radius from the center of the black hole the escaping velocity is rising to two, then three, four... times the speed of light.
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Why can the particle travel faster than the speed of light in a black hole? But not anywhere else.
Image 2) "Lorentz factor γ as a function of velocity. Its initial value is 1 (when v = 0); and as velocity approaches the speed of light (v → c) γ increases without bound (γ → ∞)."(Wikiwand/Lorenz factor)
Image 3) "α (Lorentz factor inverse) as a function of velocity - a circular arc". (Wikiwand/Lorenz factor)
The fact is that all particles are traveling at the same speed in the black hole. So in that place, the speed of photons and other particles is the same. And gravitation that rises escaping velocity higher than the speed of light pulls all particles including photons inside the black hole.
Above this part is the diagram of the Lorenz factor. The Lorenz -factor tells that the particle cannot reach the speed of light because the Lorenz factor rises endlessly? The reason for that is this. When the speed of an object closes to the speed of light. Its relative speed slows. The thing is this the energy flow that travels between photons and other objects will slow. And sooner or later that energy flow turns opposite. And photons are pulling objects back. So they can cross the speed of light only at the point of the event horizon.
The speed of the particle is relative. In the case, where an object travels with the speed of photons, its relative speed is zero. The fact is that when the object falls into the black hole with the speed of the photons its relative speed is zero. The idea of this is this there is no speed in the universe. The speed of the object is always relative to some other objects.
This means that when an object's relative speed to photons increases. That means its speed is slowing. When the speed of the object is the same as photons it's zero. That's why the speed of the object cannot cross the speed of light, except in the strange world behind the event horizon where escaping velocity is higher than the speed of light.
https://www.wikiwand.com/en/Lorentz_factor
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This bubble would be like an onion-like entire black hole around it. The area where is a series of internal smaller and smaller black holes. And sooner or later some of the black holes that are forming this onion-shaped structure explode because they cannot get energy. But at the end of that onion-shaped structure is the final black hole that is smaller than the energy channels that are connecting quarks and gluons.
The bubble is the point where is no gravitational field in the black hole. And that thing surrounds the center of the singularity. There is the possibility that the fast rotating singularity that surrounds this bubble is pulling energy out from the bubble.
If that zero-gravitational bubble inside the black hole exists it surrounds the similar event horizon that surrounds the entire black hole from the outside. The energy cannot come from emptiness and sooner or later the gravitation of that surrounding singularity pulls the Schwarzschild bubble empty from the radiation. And then the black hole starts to pull space itself. Sooner or later that effect can form a hole in the spacetime of the center of the black hole.
Or the gravitation will cause the photons are starting to fall into that hypothetical bubble. The reason for that is that the wall of that bubble is pulling each other from another side. There is a quantum field.
That surrounds this bubble. There is forming similar energy pikes inside the black hole that are forming at its poles. Or the origin of those radiation pikes is at the bubble inside the black hole. Then that pike will transport radiation through the black hole and away it.
The pike will rise through the black hole. And then it can form the quantum entanglement with some particle that falls into a black hole. So that quantum entanglement can drive energy out from the black hole. The nucleus of the black hole is extremely thick. And this hypothetical bubble is inside that nucleus.
And then sooner or later if the outcoming radiation and material cannot replace the photons that the black hole sends the singularity between that bubble starts to go thinner. And then, sooner or later that bubble will break away from the black hole.
If a graviton is like a black hole creation of antigravitation requires that all radiation pikes of the gravitons of the material must turn out. Then the pushing force of gravitation will turn dominating.
The gravitation requires graviton, which is a hypothetical particle. But if graviton is like a small black hole that thing can make antigravitation possible. The idea of antigravity is coming from the theory that there is an energy pike at the poles of the tensor particle called the graviton. The energy pike at the poles of the graviton would drive the quantum field away from its core. And that causes an effect, where the quantum field that travels to the pikes of the graviton causes a quantum-size low-pressure area.
Energy travels to that area from outside. To replace the quantum field that travels to the poles of the particle. The reason why the gravitation effect that pulls an object feels stronger than the pushing gravitation is that the area of the pushing gravitational field is smaller.
The idea of antigravity is that the gravitational radiation will turn opposite. So when the black hole explodes and the bubble inside the black hole turns to an extremely high energy level it turns all gravitons that they are turning their radiation pikes in the same direction. That thing causes the situation that the area of gravitational radiation that pushes objects away is turning all out.
Image 1) https://australiascience.tv/why-the-general-theory-of-relativity-is-not-just-for-physicists/
Images 2 and 3) https://www.wikiwand.com/en/Lorentz_factor
https://miraclesofthequantumworld.blogspot.com/
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