The wormholes and their stability

The wormholes and their stability

When we are thinking about wormholes we must realize that there is not a certain observation about this thing. So the wormhole is not possible between any other objects than black holes. And that means that the creation of a wormhole needs a very high level of energy. But what exactly the wormhole could be?

It is a similar thing what the plasma bridges between stars are, but the wormhole would be higher energetic than the plasma bridges. And we might say that this hypothetical energy bridge is the combined event horizons of the black holes. That means that the wormhole can be possible only when the black holes are oscillating with the same frequency. But there could be another thing that would limit the existence of wormholes.

If we are thinking that if the black holes are rotating in different or opposite directions, they can form the plasma bridges. But the massive quantum entanglement would deny the forming of the Einstein-Rose bridge. The thing that could turn the wormhole real is that the black holes that are forming the Einstein-Rose bridge are rotating to the same side.

We know that things like quantum mechanical phenomenon do not affect (at least normally)the macroscopic world. Quantum mechanical phenomena are interactions between subatomic particles, but can those things happen in the macro cosmos if the actor is a black hole? In black holes, the material is turned into an extremely dense form. In that form called singularity time and material are connected in one entirety.

So could the quantum mechanical phenomenon get so much energy in a black hole? That those nano-cosmic phenomena can affect or rather saying interacting with another particle also in macro cosmos. So can a black hole turn the quantum mechanical phenomena to the size of the macro cosmos?

Could quantum entanglement be the thing that closes wormholes?

Could the answer for wormholes (or lack of them) find from quantum entanglement? What if the black holes should oscillate with the same frequency but also rotate to absolute the same direction for creating a wormhole? In that case, the wormhole would be a short-period and extraordinary phenomenon.

The wormhole would be interacting with other particles if those other particles are wormholes. Those black holes would make the wormhole oscillating like the string, and that means the strings in Superstring theory are wormholes. That thing means that superstrings would be the short-living components of the universe.

The key element of this thing is if black holes are rotating in the same direction would deny the effect of the quantum entanglement. But if the black holes can form the wormhole, where the information can travel without nobody can disturb or break it that position where black holes are rotating in the same way.

This would that situation takes a very short time. Until the rotation of the black holes turns to the opposite like in the so-called normal superposition. And that is the thing that closes the wormhole by quantum entanglement. Or the phenomenon, what is closing the wormhole would be very much similar to the quantum entanglement.

Quantum entanglement is the thing that protects the information in quantum wires. But that in this theory quantum entanglement makes the forming of a wormhole almost impossible. The wormhole is the theoretical thing that allows the information to travel through it without it changes its form. And in quantum teleportation research have sent the six photon entirety through the virtual wormhole.

So same way the wormhole allows material entireties to travel through it, but what the hypothetical phenomenon is? The wormhole would be if it exists the hyper-energetic version of the plasma bridges or laser rays, which are forming virtual wormholes. The wormhole could be a very short periodic phenomenon, and the thing that this phenomenon requires is the broke of the quantum entanglement.

And in every case, that position where the black holes are rotating in the same direction is not very long term. But a theoretically single person or even a large spacecraft can travel through the wormhole if the wormhole is large enough. And the technical problems of falling in a black hole can be a win. There is always the possibility that the wormhole will close after the object what travels through it.

Sources:

Superstring theory: https://en.wikipedia.org/wiki/Superstring_theory

Wormhole: https://en.wikipedia.org/wiki/Wormhole

Image: https://www.sciencenews.org/article/black-hole-circling-wormhole-weird-gravitational-waves

http://curiosityanddarkmatter.home.blog/2021/01/11/the-wormholes-and-their-stability/

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