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Super energetic qubits are coming.
While researchers are working with the quantum systems their knowledge about that kind of thing is increasing. The collected data increases the ability to connect the puzzles of new ways in new ways. That brings new abilities and ideas for R&D (Research and Development) work in all areas including quantum technology. The increasing level of knowledge is bringing the ability to connect ideas for making the new type of qubits and other quantum systems.
Quantum systems are the most fascinating and powerful tools in the world of computing. Things like the ability to create hyper-energetic photons and electrons are allowing make the qubits, which can travel long distances and protect their data more effectively than ever before. The high energy level allows creating a so-called quantum core for the data that travels in the quantum computer.
The data can cover by using the "empty state". This means it's better protected against turbulence, which the outcoming electromagnetic or other radiation can cause. When data is packed in the electron that travels in the laser ray. Photons can touch it and then that disturbs the data, that is packed in the qubit. In the cases where the electron is touching the top of the wave movement, that can cause unexpected effects in that electron.
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Lorenz's strange attractor
The Lorentz's strange attractor as a tool. For loading the data to the qubit.
The quantum butterfly-effect or quantum-version of the "Lorentz's strange attractor" can make the revolution in quantum computers. If we are thinking that the "Lorentz's strange attractor" is created between two mono-atomic molecules. For example fullerene molecules that things can use to load the energy to the qubits.
In most fascinating solutions, the "Lorentz's strange attractor" can be created using superpositioned and entangled atoms. And the qubit-like electron or ions can position in the middle of the eight-shaped form of the electromagnetic fields.
Even if that quantum system is not self-sustain, it needs outcoming energy, which loads the data to it there is possible to connect oscillation to that system. And the information that the qubit should carry can load to the qubit by using that oscillation which is conducted to the "Lorentz's strange attractor". If the system can stop by stopping the energy transmit, that means it is easy to control.
Lorentz's strange attractor can be used to make the new and powerful virtual wormhole-based system. Information can load to qubit in the middle of the "Lorentz's strange attractor".
And then the system will be superpositioned to the similar opposite- or opponent system by using laser rays. In the most fascinating versions, the system creates the quantum black hole in the center of the "8"-shaped quantum field, and then the system will superpositioned to the opponent system.
But "Lorentz's strange attractor" is the thing that is one of the most powerful tools in quantum technology. By using that effect is possible to create quantum-size black holes by using electrons. What is positioned in the middle of the "8"-shape quantum fields. If the quantum-size black holes can be created that means those attractors can be superpositioned.
Or there is possible to make the pairs for those quantum-black holes, and the "Lorentz's strange attractors" can be used to put the black holes oscillate with the same frequency. That thing can use to transport data inside the system.
In the best version, there is forming the wormhole between those quantum black holes. And that thing protects the information. The quantum black hole is making the same type of radiation as the larger black hole.
And the X-ray beam, which comes out from the poles of that hyperenergetic object can be used as the virtual wormhole. The X-ray radiation that comes out from the quantum black hole can target the opposite quantum system, and that thing makes the opposite system oscillate with the same frequency as the sender system.
If the system requires outcoming energy, it's easy to close by stopping the energy pump in it. And if that black hole needs outcoming energy it makes it safer, because the energy cut means the end of the black hole.
Or the quantum fields can be removed, which puts it in a "bubble of nothingness" and destroys that quantum black hole. Anyway, those things are not very long-term effects and the vacuum chamber should deny the outcoming energy because the chamber denies the energy source of that black hole.
()https://scitechdaily.com/harvard-mit-quantum-computing-breakthrough-we-are-entering-a-completely-new-part-of-the-quantum-world/
()https://en.wikipedia.org/wiki/Butterfly_effect
Image I:()https://scitechdaily.com/images/Advanced-Quantum-Computer-Concept.gif
Imagee II()https://en.wikipedia.org/wiki/Butterfly_effect
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