Above is the model image of the new type of quantum system that mimics human brains. The pillars between those lattices are all the individual states of the qubit. The memristor can act as those pillars. And the system mimics human brains.
Those new materials can act as microchips that can connect computing to other structures. That thing can also make the new types of quantum computers possible. Those quantum computers mimic human brains. The idea in human brains is that all neurons act as groups.
The large neuron group can form a structure that acts like a quantum computer or qubit. We can say that the system can create a string group between two lattices and then share information between those strings. That string structure can act like a quantum computer's qubit.
In the human brain. Oppositely positioned neuron pairs act like qubits. Neurons and mirror neurons act always as pairs.
When a signal goes through that structure. The mirror neuron sends an echo to the transmitter neuron.
That it's axon channel is free. For a new mission.
The human brain has two types of axons. Horizontal axons connect neurons horizontally together and allow brain areas to communicate together. Vertical axons transmit information between brain layers. Horizontal axons connect brain areas. The nanotechnical structures that look like a little bit of a Greek Temple can mimic those brain structures.
The human brain has two types of axons. Horizontal axons connect neurons horizontally together and allow brain areas to communicate together. Vertical axons transmit information between brain layers. Horizontal axons connect brain areas. The nanotechnical structures that look like a little bit of a Greek Temple can mimic those brain structures.
The qubits are like strings. In qubits every single string has positions one or zero. Those strings are qubit's states. The qubit can have billions of strings. And that means it can involve multiple zeros and ones. At the same time. That allows quantum computers to make multiple calculations at the same time. But if researchers create lattice layer pairs where the strings or quantum pillars transport information they can create a new type of qubit.
"A Princeton research team accidentally uncovered Hofstadter’s butterfly, a long-theorized quantum fractal, while investigating superconductivity in moiré graphene. Their findings reveal new aspects of electron interactions and open doors to further quantum discoveries. Credit: SciTechDaily.com" (ScitechDaily, Hofstadter’s Butterfly Lands at Last – A 50-Year Quantum Mystery Solved)
Fractals can help to control the quantum system.
Hofstadter's butterfly can make new computers and materials possible. The Hofstadter butterfly is one of the most interesting phenomena. That we can imagine. The idea of this phenomenon is that energy travels in a lattice. Like fractals. That makes energy spread in a larger area. And that decreases its effect on the material. But Hofstadter's butterfly can give another interesting tool in computers. And other things, like quantum, and binary data transmission.
The idea is that the spintronics form the whirls in that fractal energy flow. Those whirls can anchor electrons or some other particles in that energy flow. And then the system can transmit data through those particles. The system can make the quantum dots in the lattice. The quantum whirl can create a tunnel through the air. The system transports data to those quantum dots.
Spintronics is an interesting thing. They can solve many problems in quantum computing and quantum data transmission. In quantum data transmission, the problem is that outside energy can affect the information that travels in the tube. Quantum data transmission means. The system can pack information into particles like electrons. And shoot electrons through the quantum channel.
Or it can create an extremely thin wave called a superstring. That can also transmit information. But those strings and electrons have one common problem. The outside effects can damage that information.
Things like spintronics are tools that can make quantum information transmission a reality. The particle is trapped in the whirl. Then the whirl pumps energy in the particle. And that thing makes it act like a black hole. The particle sends a very thin energy impulse to the quantum channel. That thing makes it possible to create new types of materials.
https://scitechdaily.com/this-brain-inspired-memristor-could-finally-solve-ais-catastrophic-forgetting/
https://scitechdaily.com/hofstadters-butterfly-lands-at-last-a-50-year-quantum-mystery-solved/
https://scitechdaily.com/spinning-electrons-just-solved-a-decades-old-semiconductor-mystery/
https://scitechdaily.com/this-brain-inspired-memristor-could-finally-solve-ais-catastrophic-forgetting/
https://scitechdaily.com/the-quantum-spin-breakthrough-that-could-supercharge-computing/
https://en.wikipedia.org/wiki/Memristor
https://en.wikipedia.org/wiki/Neuron
https://en.wikipedia.org/wiki/Qubit
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