The "Tokamak" fusion test reactor can use as the base of the new and very effective quantum computers.

The "Tokamak" fusion test reactor can use as the base of the new and very effective quantum computers. Those are basing the low-energetic particle accelerators. 

The image above The electron-photon interaction while the electron is traveling in the tube. The power of the light quantum is determining the state of the electron-based qubit. 

Along with the internal kinetic energy of an electron, that is another determinator for the state of the qubit. That thing allows creating the new type of qubits that are more powerful than ever before. There was different text in the original image. And you might see it in the link below this part. 

Image:(https://phys.org/news/2021-09-unveils-quantum-nature-interaction-photons.html)

The idea is that the electron or qubits are traveling the circular trajectory. And the system can load data and reuse the electron very fast. That means. When the electron-qubit has traveled through a circuit it releases its data and then takes the new data load. That means it can use smoothly and fast. 

One of the versions of the solution that can release the energy or data from traveling qubits is the graphene net. There are positioned ions or electrons in the middle of those graphene carbon frames. Then the traveling data-carrier qubits hit those particles and the energy level that is released determines the qubits state. 

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The photon-based qubit can be the light-cable that is in a circular position. 

The photon-based qubit can be the light-cable that is in a circular position. In that system, every class fiber is acting as the individual state of the qubit. That system can operate at room temperature. 

And the same thing that is used in the electron-based qubits can use in the photon-based qubits. The photon-based qubit can be the optic cable that is put in the circular position. 

The lasers will pump photons into the structure where they are annealed. And when those photons reach the sensor they release the data. In light cable every each light fiber can form its state of the qubit. And the light cable entirety is acting as the qubit. 

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The "Tokamak" reactor can act as a model for quantum computers that can operate in higher temperatures.

The "Tokamak" reactor can act as a model for quantum computers that can operate in higher temperatures. The idea of the qubits that are basing the circular accelerators is that the energy of those systems can rise so high that the changes of the energy level are easy to notice. Pumping the data to the electrons can happen by using the photons that are loading to the traveling electrons in the particle accelerator. 

The high energetic system would cover the errors from outside radiation by using so high energy load that weak outcoming interactions cannot affect that qubit. In some other ideas, different particles like protons, neutrons, and electrons can use to qubits. In that idea, every each of those particles is the one layer of the qubit. 

And the timing of the release of that energy is the difficult thing. The system can be an opposite version of the free-electron laser. While electrons are traveling in the tube they would stress by using photon emission. And then the system would release that data from the photons by changing its direction where it realizes its data as the light quantum. So this type of accelerator-based quantum computer can recycle those electrons. There is an idea that the transversely set fullerene tube can use to delete the qubit. 

And then they would start the new round in the quantum system. 

The electron-photon quantum interaction can make it possible to create new and easier-to-use quantum computers. What if researchers could use a donut-shaped structure, where electrons are traveling in the circular track for making the more powerful quantum computers. The idea is that the electrons are orbiting in the particle accelerator and that system would load the data to the electrons and remove them. The process in that quantum computer would recycle the electrons. 

While traveling in the particle accelerator that looks like a "Tokamak" fusion reactor the photons will load information to those electrons. The problem is how to adjust the point where the electron releases its data. The ability to make the electrons travel around the particle accelerator and then reload and release the data in and out of those electrons would make the system more powerful than ever before. 

In this system, the adjustment of the energy that is loaded to the quantum system is problematic. If the energy load to qubit is too high or too low the system releases the energy load or data at the wrong moment and point. That thing would cause problems for making the new and more powerful quantum computers. 

https://phys.org/news/2021-09-unveils-quantum-nature-interaction-photons.html

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

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