The new and compact quantum computers are at the door.

The reason why things like superconducting materials are important for quantum computers is that determine the energy levels. Or states of qubits are easier in the superconducting material.

When we are thinking of the qubit as the car that travels on the road the beginning energy level determine which main road the qubit takes. And the sub-layers or states of energy determine the sub roads the qubit uses in the system.

But if we want to make a quantum computer that operates at room temperature. We could use the quantum annealing in the crystal. The system requires information on the brightness of the crystal.

If the system knows how much energy the material absorbs at a certain distance and temperature. That thing can make it possible to create a quantum computer. That can operate on a large temperature scale.

If the quantum entanglement inside solid materials like diamond crystals is possible. The diamond crystals can anneal by stressing the carbon atoms by using electromagnetic radiation. But also flat solid materials are suitable for the quantum computer. The system can anchor by using the combination of pressure and low temperature in the superconducting state.

That thing can make it possible to create man-looking robots that have internal quantum processors inside their bodies. That thing would be the next revolution in quantum computing.

Also, the ability to superposition baryons like protons and neutrons is making it possible to make new layers and routes for a qubit. Baryons are a subtype of hadrons and that thing means that protons and neutrons are hadrons, subtype baryons.

The ability to superposition the quarks inside the hadron-baryons means that. Those things can use to create the quantum network. By creating that network can be done using superpositioned and entangled quarks that are forming those baryons.

https://phys.org/news/2021-11-key-witness-scientists-spooky-quantum.html

https://scitechdaily.com/creating-dynamic-symmetry-in-diamond-crystals-to-improve-qubits-for-quantum-computing/amp/

https://www.techexplorist.com/first-ever-simulation-baryons-performed-quantum-computer/42337/

https://en.wikipedia.org/wiki/Baryon

https://en.wikipedia.org/wiki/Hadron

https://thoughtsaboutsuperpositions.blogspot.com/

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