FRB and long-distance communication.

FRB can offer a solution for long-distance quantum communication.

The idea of this type of communication is that internally positioned EM fields can protect each other. So the qubit can be packed in an electromagnetic capsule. And things like power fields like skyrmions can also be superpositioned. But the problem is how to protect the information in that system from the outside effects.

In some models, the FRB (Fast Radio Bursts) are the skyrmions that travel on some kind of quantum flashes of lightning. In those models, the quantum lighting or donut-looking power field will get energy from the superstring or quantum tornado.

"New research in structured light means researchers can exploit the many patterns of light as an encoding alphabet without worrying about how noisy the channel is. Credit: Wits University" (ScitechDaily.com/Structured Light Revolution: Noise-Free Optical Communication Demonstrated)

In that model, the quantum tornado or the tail of some very fast particle forms a channel. And the FRB is traveling on that channel. Maybe FRBs can someday in the future be the model for long-distance quantum communication.

The problem with quantum communication is the noise. In some models, quantum computers will use the donut-shaped skyrmion lightning for long-distance communication. The skyrmion can be segmented and each segment can be the independent state of the qubit. But the problem is how to protect the skyrmion from the outside effects.

The noise-free optical communication has been demonstrated. The problem with optical communication is the outside effect. If the light travels in the fullerene nanotube that thing protects the information carrier. Fullerene nanotubes can protect the information over short distances, but for long-term communication is needed some other solutions.

The other version is to use a hollow laser ray where the information travels in a safe. The hollow laser rays allow researchers to create an electromagnetic wormhole that protects information that travels in the optical system. And researchers can install that system's binary version in regular network components.

In some models, the system can use the mechanic quantum computer. The mechanic quantum computer could be a very small structure in the wires. Researchers are turned single atoms into quantum computers. And that means the copper wires can act as quantum computers if they can be stabilized.

So intelligent electric wires can use to transmit electricity and information between two points. The mechanic quantum computer is one very promising system for many purposes. But the problem is that the R&D process for these kinds of systems is just beginning.

https://scitechdaily.com/structured-light-revolution-noise-free-optical-communication-demonstrated/

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