The difference between new and traditional qubits is that the new qubit consists of many smaller qubits that are closed inside one bigger qubit. The idea is simple. The hadron where is three quarks turn the new qubit. In that system, each of those quarks can turn into independent qubits. In this text, I use the proton as an example. The proton is a baryonic hadron that contains two up and one down quark.
An interesting thing is that. The quantum computer system can transform other internal structures of hadrons like gluons into qubits. So hadron can turn multi-level qubit that has multiple independent qubits in one package.
And then the quantum field that surrounds those three quarks can turn into an extra-qubit. Those outside qubits can contain information where the system must transport those sub-qubits. That allows for encrypting information on many levels.
The quark-based qubits and quantum entanglement are not no used in quantum computers. The reason for that is the quarks are hiding in hadrons. But otherwise, that kind of thing is interesting. Quarks are very close to each other. And the quantum entanglement through the hadrons quantum field could make it possible to adjust the energy levels in quark qubits.
The idea is that the quantum entanglement between quarks in the same or different hadrons can use to adjust the quarks' internal superpositions. And then the quantum field of the hadron can also turn into an extra-qubit.
The most out qubit could carry less confidential information than qubits inside it. But this kind of qubit can store information better than a regular qubit. The system can store that hadron where those internal qubits store information in extremely cold conditions. And that turns this qubit into a quantum-size USB stick.
When that kind of system wants to download information from the qubit it needs instructions on how to handle qubits there system stored its information. The system can store that information in the most out edge of the qubit.
Or the information on how to control those three quarks can store in the binary computers. In that case, the quantum USB is like any other hadron. But the system knows how to get access to data that is stored in those three quarks.
If researchers can store data in those three quarks in the proton. They could send the qubit to the receiver by using ion cannon. That ion cannon makes it possible to quantum computers to communicate over long distances. The ion cannon can shoot those ions through the hollow optical fibers or inside hollow laser rays. This kind of system can revolutionize quantum computing.
https://scitechdaily.com/a-new-faster-type-of-quantum-computer/
https://en.wikipedia.org/wiki/Baryon
https://en.wikipedia.org/wiki/Hadron
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