Black holes and quantum fields

   

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Black holes and quantum fields

If we think that the black hole is like the tube, what travels in time, we must realize that if something wants to go in there it must go in precise in the right moment. If that item faces the black hole too late, it would not get in that hole, or the energy field that is in the form of gravitation would rip the object into pieces. So in this kind of scenario, the material can pass the event horizon in the sub-atomic form.

This means that material would tunnel through the black hole event horizon by using quantum tunneling if the object would not be in the place right at the moment when the black hole forms. In the quantum world is the thing that is called quantum tunneling.

That means that the information or particle can travel through the wall even that thing should not be possible. And nuclear fusion is introduced as the tunneling phenomenon. The problem with nuclear fusion is that when the nucleus of two atoms is connected the needed energy load should be so high that it is hard to control.

Those particles must pass the electron core and the power field of each other. When two atoms are approaching the electron cores would start to push them away from the route. And then the same effect will happen with the electric fields of protons. So the atoms must pass two pushing fields if the nucleus of them wanted to be connected.

What if the fusion tests would be used the cations and anions. In this case, those atomic particles are pumped into the reactor from opposite sides of it. And the electromagnetic forces will pull them to collide trajectory with each other when they are traveling in the accelerator.

Sometimes has been introduced an idea that fusion tests should use two groups of atoms. One is ionized and the other is normal atoms. The He⁺ ions would shoot against the He atoms or the Na⁺ Cations would shoot with very high speed against Cl⁻ anions. That is called the hot Natrium-Chloride circling process. In this case, the anion and cation are not forming the ion bond. The nucleus of atoms is melting together.

In this type of test is used the particle accelerator, what is accelerating those cations and anions to the highest possible speed and then those ions will collide with each other. In this type of system, the anions are injected into the particle accelerator from the other end. And the cations are injected into the particle accelerator from another end of it.

Then the system would drive them together at very high speed. This type of ion fusion is a very interesting thing for some types of tests because the ions are pulling each other together. When the energy load is very high the nuclei of ions are melting together as in Helium 3 fusion. The ion fusion can be one of the promising versions for the fusion engines of interplanetary spacecraft.

http://curiosityanddarkmatter.home.blog/2021/01/14/black-holes-and-quantum-fields/