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The room-temperature superconductor allows making the new ultra-fast computers.

 

The room-temperature superconductor allows making the new ultra-fast computers. 


In the room-temperature superconductor, the extremely high pressure will lock the atoms or ions in a stable position, and the only thing that makes that kind of thing difficult is the 200-250GPa (2000000 - 2500000 bar). But there is a possibility to make the tubes by using carbon fiber what can stand that pressure. 

The tube where is that extremely high pressure has the smallest possible diameter, and the tube can have two layers. The maximum pressure is only in the most in tubes, and the upper tube has high pressure what is lower than in the tube, where the superconductor is, and the purpose of that outer pressure tube would be to keep up the inner tube. 

The entire structure would be closed in the box. That box must be armored and it can be created by using hard metal alloy or the same glass that is used in the windows of spacecraft, and there should be a vacuum, that denies the effect of pressure in the case of tube damage. 

The vacuum can allow the escaping high-pressure gas can expand, which makes it safer. If the vacuum-box is lucid, that allows the operators to observe the conditions of the pressure system. So this kind of small-size pressure tubes allows to keep the mass of the extremely highly pressurized gas small, and that thing increases the safety of those systems. 

So the question is can we make the quantum wires someway stable with the normal superconductors by using pressure? The quantum wires are the series of atoms, what are put in the line. When the atoms would put the line and then the pressure will release to that chamber, where it locks the atom series to the same line. 

But the fact is that the same thing is used with atoms that can be used with ions. And the ion connections will make the atom lines more sustainable than atoms because the electrostatic forces are keeping the structures in the form more effective way than the atom poles. But the thing is that the high-pressure system can be the solution for the next generation super- and quantum computers. If microchips will use the technology, what bases that the pressure will lock the structure in place, that thing makes it possible to protect the industrial secrets. 

The room-temperature systems, what can operate only in high-pressure chambers are allowing to create a system, that is impossible to steal. If that kind of system can install on the aircraft or some mobile devices the attempt to steal or transport that system to the hostile country can cause that pressure will release, and that destroys the structure of the system, which makes it impossible to copy it. 


https://physicsworld.com/a/new-optical-connections-for-trapped-ions-could-lead-to-better-quantum-computers/


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