The singularity and the risks in the universe
1) Could quantum fields answer how the singularity would form?
Of course, we know how singularity is forming. The energy would be pumped particles, and that turns it to a black hole. But what happens between the quarks in that process. The thing is to find an answer to this question. The idea is the same when we are in driving schools.
Most people would know, what happens when we are pulling the gas pedal, but many of those people don't know, what the gas pedal makes in the engine. The same way some cosmologists try to explain what energy would make in the subatomic particles like protons and neutrons, and how it affects the internal structure, and the space between the quarks?
1.2) What happens in the protons and neutrons during the singularity process?
In this case, we would observe the singularity (1) from the subatomic particle's point of view. That means that we would think, what happens in the nucleus of an atom when the material would turn to singularity. That thing means that the time and space are combining in the material, and this would cause that the material turns to a black hole.
When we are observing the Feynman's diagram (2) about the quantum fields, that thing would explain that the quarks are connecting with the superstrings or springs, what are the energy fields, what are keeping those particles together, but at the distance from the each other. That means that the quarks would not touch together.
1.3) Would the explosion of supernova melt the quarks in one point, what is the size of quark but what has the mass of many suns or even the entire galaxy. The supermassive black holes can have mass, which is bigger than the other particles in the galaxy.
But when the supernova explodes or the energy in the nucleus of atoms would turn high enough, that means that the superstrings would push to the bottom. And that causes that the quarks are touching together. So that thing makes possible that the entire material would melt to the thing, which involves a very high level of energy, and that causes an extremely powerful gravity field.
And if we are thinking about the space as the layer, that extremely small, but heavy particle would be dropped through that layer. if we are thinking about the possibility of forming the wormhole or electromagnetic bridge between the black holes, that thing could happen, when the particles, what have flown away from two black holes are touching together. That thing would connect black holes in the space.
2) The question is could the wormhole (Einstein-Rose bridge)(3) or "bubbles of nothing" cause the end of the universe? (4)
The other type of wormhole would connect the black holes at a different time if they are oscillating with the same frequency. And those wormholes can be key to the time-traveling. But there is also the possibility that even that thing would exist the size of it would be something like a quark of photon.
But even if the hypothetical wormhole would be very thin, that thing would be the structure, what goes from another side of the universe to another. And that means that the length of the wormhole could be billions of light-years. So what happens if the wormhole would go through the form of quarks like neutron or proton?
3) Could the "bubble of nothing" form, when the wormhole is ended its existence?
The wormhole could go through the superstring, and then it would pump the energy to that thing. And the lifetime of the quantum wormholes would be a couple of nanoseconds. When the existence of the wormhole would be ended, there is a short living "bubble of nothing" in that place, and then the quarks would touch together.
That thing could cause an explosion in the proton or neutron, which would transfer to the other protons and neutrons in the nucleus of an atom. And that thing causes nuclear resonance to other atoms, what might form the fractal effect, where this kind of explosion destroys the entire universe. But this thing is only theory.
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