Qubits and Bose-Einstein condensate
If the researchers can control the temperature of the Bose-Einstein concentration they could make the new type of qubit. The zero-gravity conditions are also denying the effect of the magnetic field to the qubit, what transfer data in the quantum computer, because the magnetic field, what transfer the qubit, or data-transferring molecule in the tube and keep it away the walls is normally causing transformations in the electricity, what is stored in the qubit.
It's very hard to form Bose-Einstein concentrate on the Earth, and the thing, that makes it so difficult is that the atoms need to cool to very low temperature and the second thing that makes this process so difficult is that the atoms must be in the form of gas. So the thing that this system requires is the gas, which is in the temperature near zero Kelvin. In this process, the laser will decrease the temperature near atoms, which is hovering in the chamber, and that would make it possible to create this thing. The laser ray will shoot near the hovering atoms, and that system will pull the temperature of the atoms away. So the problem is how to make those atoms hovering?
There are many things, that can be used in normal situations. Soundwaves are sometimes suitable for hovering material, but that requires that in the chamber is gas, but this kind of experiment requires a very clean sample, where is only one type atoms. And another way to make the hovering in the chamber is just to ionize those atoms, which puts them repel each other. If ions have the same polar of electricity, they are pulling each other away. And then the magnetic chamber will push those ions back inside it.
The problem is that those ions must be in extremely low temperatures, and this is the thing, that makes that kind of test extremely difficult. But there is possible to make the Bose-Einstein condensate in the space more easily than in laboratories on Earth. In the zero-gravity conditions, the atoms can hover naturally, and that would make very interesting visions in the eyes of the researchers.
The thing is that what if the researchers could control the Bose-Einstein concentrate, that thing would make a revolution in the research of the thing called a qubit. If researchers can create an oscillating version of Bosen-Einstein concentrate, they could create a new and effective type of quantum computer. In that case, the qubit is formed by using the Bose-Einstein concentrate, what temperature would be controlled by using extreme accuracy.
And if the quantum computer is in the space or outside the gravity field that will make it possible to create the quantum computer far easier than on the Earth. The zero-gravity environment is helping to control the qubit, which temperature is in the extremely low temperature. Qubit moves in the tube and the thing that is very important in the quantum computers is that the qubit must not lose its electric capacity by touching the wall of the tube. Normally that thing is handled by using the magnetic field, what effects to the qubit, and disturbs the stored electricity in that particle. So that thing is easier to handle in the zero-gravity environment, where the needed magnetic fields are weaker.
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