The universe is full of systems. And actually, it is the system itself. But if we want to make things like quantum computers, we must limit the number of participants. Or the system turns too hard to control.
When you make systems, first you must separate the system's actors from another entirety. Or the system turns impossible to control. The participant of the quantum system is quantum particles and electromagnetic fields.
Systems turn very complex easily if they are too big. In the system, every participant has a role. If some participants' energy level is too low. That means the other participants must deliver energy to it. And if one participant's energy level is too high, it shares energy with other participants. If all participants are at the same energy level. That means information cannot travel in the system.
When you want to make some kind of system, you must separate the participants of systems from the environment. Otherwise, the communication with those participants will not be successful. In quantum systems, the separation can be done by using the energy level and then adjusting the oscillation of the participant with the same level. The base energy level is the thing that separates the entirety of the system from its environment.
The quantum system is like a tree there are leaves around it. Those leaves are the particles that have similar oscillation and the tree is the thing that has a similar frequency but the energy level is higher. In that kinds of systems, the energy flows from the particles with a higher energy level to particles that have the same oscillation frequency but a lower energy level.
That separation can raise or lower the energy level of those participants. Rising the energy level is easier to make. And the higher energy level is easier to control than the lower energy level. When we think about the quantum entanglement that plays a vital role in quantum computers we must realize one thing. The energy level between the ends of the quantum entanglements must be different.
When the energy level on another side is higher. That allows the information travels longer in the quantum entanglement. The thing that destroys the entanglement is that the system reaches energy stability. When the energy level between those particles is the same the data is not traveling.
So the solution for that problem can be in 2D quasiparticles or particles at the minimum energy level. In that case, the particle or the edge of the quantum entanglement can be on the quasiparticle or particle that is in the lowest energy level possible. That thing conducts energy away from the quantum entanglement.
If energy can flow away from another side of the quantum entanglement. That thing means energy or information can travel a long time in the quantum computer. The reason for that is the adjusting of the quantum entanglement will remain for a longer period. And that thing makes this system more powerful than ever before.
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(https://scitechdaily.com/new-invention-triggers-one-of-quantum-mechanics-strangest-and-most-useful-phenomena/)
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