Superconducting, solid-state quantum processors are possible. The idea of that system is that processor uses a large number of qubits having fewer states than larger qubits. The series of those qubits can replace one multi-state qubit. If the programmable solid-state quantum processor is possible that thing will revolutionize the entire quantum computing.
Below: The diagram of a quantum processor.
INPUT
XXXXXXXXXXXXX
888888888888888888
XXXXXXXXXXXXX
OUTPUT
X= The outer core of the quantum processor. The system drives information to that layer. And that layer also outputs the information.
8=Qauntum entanglement.
The data will be driven to the core of that quantum processor. And then the qubits transport data between the input and output layers. That thing can make it possible to create more compact quantum computers than ever before.
Superconductivity is one of the requirements of that kind of microprocessor. That thing guarantees stability in that system. The safest possible way to make that quantum entanglement is to superposition the atom's magnetic- or quantum fields.
Some researchers introduced the idea that the system can make qubits between two mirrors. In that case, the quantum entanglement would be photons that hover between those mirrors.
In some other cases, the positronium is introduced to act as a qubit. The idea is that the electron and positron are anchored in the same position by using a magnetic field that locks them to the right position between sensors.
https://scitechdaily.com/quantum-computing-breakthrough-qubits-for-a-programmable-solid-state-superconducting-processor/
https://miraclesofthequantumworld.blogspot.com/
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