Even researchers don't know the entire capacity of skyrmions.

"SCHEMATICS OF SPATIAL TOPOLOGICAL STRUCTURES OF MAGNETIC VORTEX RINGS AND SKYRMIONS IN A SUPERTOROIDAL LIGHT PULSE. THE GRAY DOTS AND RINGS MARK THE DISTRIBUTION OF SINGULARITIES (SADDLE POINTS AND VORTEX RINGS) IN THE MAGNETIC FIELD, LARGE PINK ARROWS MARK SELECTIVE MAGNETIC VECTOR DIRECTIONS, AND THE SMALLER COLORED ARROWS SHOW THE SKYRMIONIC STRUCTURES IN THE MAGNETIC FIELD. CREDIT: YIJIE SHEN (2021)" https://scitechdaily.com/a-new-family-of-electromagnetic-pulses-skyrmions-can-fly/

The skyrmions can fly. And they can be the solution for the data transmitting problem between quantum and binary computers. So it's the virtual particle. Because skyrmions can fly. Skyrmion can use to give extremely high accurate energy impacts to the targets. That ability can make it possible to make the high-accurate version of radiation therapy.

The skyrmion is like a whirling magnetic field that acts like a particle. The form of a skyrmion is the wave movement that is looking like a miniature hurricane. And that thing can be the key to the ball lightning. It is suspicious that ball lightning is a wave movement that is jumping inside the quantum field. In laboratories, skyrmions are made inside the Bose-Einstein condensate. The extremely quantum gas will turn the electromagnetic field to acting like a whirl.

The skyrmion can use to send data in a safe package over the air. But the problem is that the form of a skyrmion is not stanging for a very long time. The skyrmion can be used to transmit data between quantum and binary computers. The idea is that the skyrmion is acting as the virtual hard disk where data is stored. And then skyrmion will be shot to a voltage meter that determines the state of the qubit. Because skyrmions are destroyed soon after they are created. That thing makes it possible to make an absolute safe data channel between quantum computers and binary computers.

Normally the data transmitting between quantum and the binary system is made by using electricity (electrons) or radio waves. And that thing makes it possible to put the radio receiver in the border of quantum and binary computers. That thing what can using nanotechnological sensors can risk the data security in quantum computers. If the data travels in the nanotubes. In the form of skyrmions that makes it almost impossible to eavesdrop on those computers.

Eavesdropping the quantum computer is not possible by using conventional methods. But there is the possibility that biorobots like microchipped ants are putting extremely small-size microchips in binary computers. That is transmitting data between keyboard and quantum computers and the screens and other output devices.

https://scitechdaily.com/a-new-family-of-electromagnetic-pulses-skyrmions-can-fly/

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

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There is theoretically possible to steal data from qubit without a quantum computer that will not detect what happens.

The "mirror-quantum eraser" (opposite operating quantum eraser) would make it possible to break the quantum computer. The system would be almost like a quantum eraser. But it recycles the data through the sensor and then reloads the lost energy back to the qubit. But making that thing is very difficult.

If somebody would try to download data from qubit the system recognizes that the energy level in the qubit is changed. But if there is some kind of system which can replace the energy. That decreases the download process. That would make it possible to steal data from the qubits without the system recognizing that thing.

The thing is that there is the possibility to eavesdrop on the quantum computer by putting the sensor that is sniffing the changes of electromagnetic fields. Like the brightness of the laser rays in the channels that are transmitting data in the quantum system. Breaking the qubit is extremely difficult. That thing requires that the receiving system knows the energy levels that are used for making qubits.

And then the system must just return those states after the information is stored. But there is the possibility that a system like a quantum eraser can just "borrow" the qubit when it copies the data. The system would be like the quantum wire there is pumped exactly right energy level. In that case, the quantum computer would not recognize that the energy level of the qubit is not decreasing while the copying process.

https://thoughtandmachines.blogspot.com/

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