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The room-temperature superconductors could make the thinking computers possible.

   


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The room-temperature superconductors could make the thinking computers possible.


How to make artificial neurons? Simply copying the structure of neurons to the nanotechnical high-pressure structure is possible to make a copy of human brains. But in this structure, the neurons are replaced by using microchip controlled routers. And the thing is that this kind of system can be faster than human brains. The thinking process is like the song "Ten little elephants". 

The elephants are like thought, what is moving in the nervous system. Each time when they are passing the memory block, that block is connecting one thing to that thought. The thought is always simply at the beginning, but the connected things make it more and more complicated. 

Can we someday make artificial neurons? Or are even artificial brains possible? The fact is that we can copy the structure of the neuron quite simply by using nanotechnology. The problem with copying the neurons is that the functions of the neurons are hard to create. Of course, the neuron can be replaced by using the pressure bottle, which is made by using artificial diamonds, and the fullerene nanotubes can put in the artificial diamond. 

That makes it possible to make a safe high-pressure system, where the pressure will rise to 250 0000 bar. In this structure, the nucleus of the neurons would replace by using the microchip, what are routing electricity to different areas of the computer. The artificial neuron would be like the router in the regular computers, and the other system bases the three- or more layer structure, which allows the system to act like natural brains. 

The idea is that when the electric impulses would travel in neural systems with superimposed tracks the impulses, what is traveling with three different speeds are causing the ability for abstract thinking because they are warping each other, and the connection between warping images, memory, and the data what comes from sensors is making the human brains so powerful and excellent tool. 


Image: https://en.wikipedia.org/wiki/Axon


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The diagram of artificial axons

_________________________________

XXXXXXXXXXXXXXXXXX (1)

*********************** (2)

------------------------- (3)

*********************** (2)

XXXXXXXXXXXXXXXXXX (1)

________________________________


1) The nanotube structure

2) Electrolytic but non-superconducting layer

3) The superconducting layer

The pressure will form in the nanotube structure. And the electricity or electrons are traveling with the highest speed in the most in the layer. Only the most in part of the artificial axon are created by using the superconducting materials. The other parts are the regular conductors, and that thing makes it possible to make a three-speed signal, which emulates the signals of the axons. 

The number of neurons and axon connections in human brains is so high that making the computer, which has the same intellectual capacity as human brains are difficult. But by using the molecule-size structures this thing is within the limit of the possibilities. 


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So in the artificial brains, the neurons and axons are replaced by using high-pressure nanotechnical systems. The most out layer of the structure are nanotubes, where the signal travels at the lowest speed. And the pressure structure that keeps the most in part of this system superconducting is in the nanotubes. The mid-speed system would use the ionized liquid or gas for creating the conduction layer, where the speed of the signal is the average of the most in and the most out layers. 

In this hypothetical system, the microchips are in the small pressure chambers, where the pressure is 2500000 bar. The microchips are routing the electric signals in the artificial nervous system. The system would be a copy of the axons, and the synaptic might replaced by radio transmitters or nano-size lasers. The system can send the impulses from one artificial neuron to another, and then it can synchronize those signals that they can travel at the same speeds in the next artificial neuron. 

The nanotubes are replacing axons and the internal structure of the nanotubes is filled with the ionized gas or liquid. And the most in part of that structure is the superconducting material. In that structure, the electricity will travel in at three speeds, and this thing would create the ability to make abstract thoughts. The problem is how to make enough connections in that system for making a copy of human brains? 


Sources:


https://www.businessinsider.in/science/news/physicists-made-a-superconductor-that-works-at-room-temperature-it-could-one-day-give-rise-to-high-speed-floating-trains-/articleshow/78847726.cms


Article: https://www.quantamagazine.org/physicists-discover-first-room-temperature-superconductor-20201014/


https://en.wikipedia.org/wiki/Room-temperature_superconductor

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