The Cherenkov radiation is well known as "blue shine" in the liquid. That is surrounding the nuclear reactor. The origin of the blue shine is the particle that hits the water layer and then slows when it will pump its energy away for slowing down to the speed of light. The particle's speed that hits water straight from the air is higher than the speed of light is in water. And that makes the blue light shockwave.
In the Cherenkov-radiation based or Cherenkov qubit the idea is that the blue shine can use as a qubit. The number of particles what is hitting the water describes the power of the light. So the power of the light is very easy to adjust. The idea in this qubit is the same as every other qubit. A certain brightness means a certain state of the qubit.
Even if the water tank, where the qubit is made by shooting the particles in it cannot turn to qubit there is possible to use multiple chambers to create the virtual quantum computer. The sliding window can turn the data into pieces. Those are driven in line to the receivers. The transmitter and receive series can use regular 0/1 bit architecture that is made for handling hashed data rows.
The idea of this kind of system is that the data row that is similar to the data row that is traveling on the internet is hash in pieces. The system that is basing the 0/1 microprocessors is starting to handle data in many points of the data row at the same time. And then the data is pack back to one entirety. The thing is that the 0/1 bit computer system can also use light for transporting data.
And if the level of the blue shine of the Cherenkov radiation is higher than a certain level the value of the bit is one. And if the level of the radiation is lower than a certain level that means the bit is translated zero (0<X<1). But the ability to adjust the light level very accurately makes sure that there can be many levels or states in this kind of qubit.
So how to adjust the power of the light in the Cherenkov qubit?
Adjusting the brightness of the Cherenkov radiation is very easy. The number of electrons that are impacting the water layer affects the brightness of the qubit. So by using that information there is the possibility to make the qubit where the group of particle accelerators is shooting electrons to the water tank. There might be many particles accelerators that are shooting electrons or protons to the water. The system can adjust the brightness of the shine by adjusting the number of particle accelerators that are shot to the water.
If there are 5 particle accelerators the value of the qubit can be between 0 to 4. By using the 3 particle accelerators at the same time the qubit can get values 0 to 2. So the number of electrons that smashes to water at the same time determines the number of levels or states of the qubit. If there are nine particle accelerators the maximum value of the qubit is 8. The reason for that is that the calculation of the states of qubit starts from zero. The zero layers in the qubits are reserved for the carrier power, and all data are traveling by using higher levels or states.
()https://en.wikipedia.org/wiki/Cherenkov_radiation
Image:()https://en.wikipedia.org/wiki/Cherenkov_radiation
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