The new one-way superconductor will make possible the new types of microchips. And it can allow the making of solid-silicon-based quantum computers.

One-way superconductors are making it possible to create superconducting diodes. Those systems are driven electricity in one direction. And that thing makes it possible to create solid quantum computers. The simplest model of the solid quantum computer chip is the system where data travels in the superconducting wires. That system looks a little bit like a guitar. Each wire and the changes in the voltage are the certain layers or states of the qubit. 

That thing makes those systems more compact. Also, that thing makes them less sensitive to electromagnetic stress. The superconducting systems are interesting because when electricity travels in the superconducting circuit it keeps its form. And that thing makes it possible to drive data to the quantum state of memory for resending through quantum computers. 

There is also the second possibility to make a compact quantum computer. That thing is based on miniature technology. That possibility is less radical than the solid superconducting system. The superconducting diodes are making it easier to transform binary data to the qubit.  And the reason for that is simple. The electricity that travels in the superconducting wires keeps its form. 

Loading data to qubit might seem very difficult. The qubit will stress by a certain level of electromagnetic radiation. And the data that flows from the wire is stored to a certain energy level in the qubit. So the energy level of the qubit turns to a certain level. Then the small data bite will drive to that qubit. Then the laser will send that data forward. Data flow will be cut into pieces before this operation. And the remarkable thing is that the system adjusts the energy level of the receiving part. 

The binary data will transform to the quantum mode by using the quantum memory as the medium. Binary data flow will be driven to quantum memory and transformed to qubit mode. When data turned back to binary mode. Each layer of the qubit will load to wire one after one. And that allows the binary computer to handle that data. 

The futuristic quantum microchip can have two superconducting silicone layers. And between them is the photon crystals where are photons. That is superpositioned and entangled. Those photons are superpositioned and entangled through the nanotubes that also protect them against electromagnetic turbulence. 

The distance between those photon crystals could be less than a micrometer. And the system is based on the idea that the data flow will be cut into pieces before it will be driven to the solid layer. There those data bites will drive to the quantum memory. And then resend through those photons. 

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