What if the small black hole is forming in CERN?
Can we someday control the black holes? The answer is that there is a possibility to close the most destructive thing in the universe, a black hole that is forming accidentally can be closed in the absolute round ball because the symmetrical pull of the core of the ball would not break it. So what happens if the black hole is spontaneously forming in a particle accelerator?
The thing is that the result of this kind of thing depends on how stable the singularity is. People usually think that the black hole is some kind of normal vacuum, but the answer is that the black hole is the most destructive phenomenon in the universe. The gas would drop in the black hole with the speed of the light, and that causes extremely powerful friction in the atmosphere.
That friction causes that more energy would affect the black hole, and that means that the energy would start to stabilize the black hole. Even the black hole would not stabilize, the friction causes the intensive heat, which can start the nitrogen-oxygen fusion, or at least the oxygen can start to combine with nitrogen, which causes that the atmosphere of Earth would burn. Normally the nitrogen-oxygen fusion requires so high pressure and energy levels, that this thing is possible only in the heaviest stars.
In this case, the black hole would just start to give the pressure and temperature, which means that it acts as some kind of motor, which injects energy into the fusion. But if we would be so lucky, that thing requires that the existence of a black hole remains one billionth of a second. That thing means that the size of the black hole would be smaller than the proton, but the problem is that the small singularities would start to pull the air atoms to it and that just ignite the fusion, which will feed the black hole with energy.
And that thing can cause that entire earth would drop in the black hole. There is a possibility that the black hole starts to hover above Earth. The X-ray radiation is coming from the poles of the black hole would cause that the black hole is acting in the atmosphere of planets in quasi-stars. So that X-ray pylon or ray would start to boil the entire planet, or detonate it as Death Star makes in the Star Wars movies.
Is Epsilon Indi some kind of miniature version of Quasi-star?
The thing that supports that theory is that Epsilon Indi is a bright X-ray target and the black hole is the only thing, that can produce long-term X-ray radiation. Maybe the size of the black hole is not larger than the ping pong ball, but the energy, that it creates is extremely high.
There is a possibility that in the atmosphere of the star name Epsilon Indi is the small size black hole, what is moving that star across the universe. So Epsilon Indi is maybe some kind of miniature version of the Quasi-stars, what are hypothetical giant stars, what size is the light-year. So is the case of Epsilon Indi the result of the thing, that the bright and the hot star has turned it's a planet to the black hole.
The intensive heat along with electromagnetic radiation would increase the energy of the planet, which will turn it to singularity. Then it would drop to the atmosphere of the star. And pull the mass of the star in it. Then the black hole starts to hover in the atmosphere. The thing that is important in this case is that the X-ray radiation would turn the entire star in the extreme heat and cause the forming of the X-ray radiation.
Sources:
Epsilon Indi:
https://en.wikipedia.org/wiki/Epsilon_Indi
Quasi-star: https://en.wikipedia.org/wiki/Quasi-star
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