"Scientists have uncovered a link between superconductivity and the fundamental constants of nature, showing that room-temperature superconductors could exist. Credit: SciTechDaily.com" (ScitechDaily, The Holy Grail of Physics: Superconductivity Without the Cold)
The superconductivity is the tool that changes everything. But the problem is that this thing requires a very low temperature. Another way is to create a system where high pressure stabilizes atoms in superconducting. The Hall field. Or resistance will be lost. Those Hall fields are discontinuous in the wire. And electricity travels on the wire. Those discontinuities form standing waves.
When electricity impacts the Hall field it must pack so much energy at the front of it that it can break that vertical field. In low temperatures, the quantum fields around the wire turn united. Because that field turns to the same entirety the electricity will not face resistance. The low temperature removes oscillation.
The oscillation forms when energy travels back and forth between the atoms and the space between them. That thing increases entropy and entropy destroys information. Or entropy doesn't destroy information. It just mixes it into a form that we cannot read it. Or the computer cannot understand it. Theoretically in limited systems entropy cannot be unlimited.
That means. By knowing the system the AI can recalculate or restore the information that travels through the wire and is mixed by entropy or disorder. The system must "just" calculate the original form of the information. So in that case the wire is virtually superconducted. But that is a very hard thing for computers.
And the Hall field is the thing that mixes information. The superconducting means that the data can remain in the same form. That means the superconductor is a vital component in the quantum computer. The problem with table-size quantum computers is that the superconductor requires a high-power freezer. The thing that uses energy in the quantum system is the freezer.
However, the superconductivity at room temperature is not ruled out. But miniaturized pressure chambers and compact-size cryogenic systems can make the small-size quantum computers possible. The small size can mean the system that fits in a van. Or maybe, the quantum computer can be the size of a dustbin.
Theoretically is possible to create materials that are superconducting at room temperature. There is the possibility that the material will be in the miniaturized pressure chambers. And the electromagnetic coolers can decrease temperatures. The high pressure will raise the superconducting temperatures.
The carbon rings that close the nanotechnical wire inside them can used as tools where the laser beams make the pressure. Those rings can be around a nanotechnical metal wire. The symmetrical laser beams can lock those atoms into the static position. If there is a pressure chamber in the cryogenic unit the temperature must not be so low as otherwise.
https://scitechdaily.com/the-holy-grail-of-physics-superconductivity-without-the-cold/
https://en.wikipedia.org/wiki/Hall_effect
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