"Scientists from Northwestern and Georgia Tech have developed an organic electrochemical neuron that mimics human neural function, enabling real-time tactile perception. This research represents a major leap in organic electronics and neuromorphic systems. (Artist’s concept)."(ScitechDaily, Scientists Develop Artificial Neurons That Mimic Human Perception)
By using graphene and some ions or electrons is possible to create a system that works like a neural axon and neuron. The electrons or other particles mimic the neurotransmitters in the artificial neurons. Artificial neurons are things that can and will revolutionize computing. In that system, the graphene layers are opposite to each other. Then the system shoots ions between those layers. It can also make the quantum entanglement between particles that are trapped in the holes of graphene.
In the ultimate version of this system, the frames that can trap photons in them can create a structure that is similar to the beehive. And then those structures are opposite to each other. Then the system makes a superposition between those photons. This thing can be the model for the quantum neurons. If quantum neurons are possible that system can turn more powerful than natural neurons. The quantum neuron is one vision of quantum computing in the future.
The ability to trap electron groups in the graphene layer makes it possible to create a new and powerful quantum system. The graphene frame transmits energy and information in those electrons. After that, the system makes superpositions and entanglement between them.
The difference between the energy levels of the transmitter and receiving sides of the quantum entanglement determines the time of the sustainability of the quantum entanglement. That means the receiving part should be as low an energy level as possible. And transmitter side must be as high an energy level as possible. The quantum entanglement doesn't let to get as high an energy level in the receiving part as in the transmitter side. If energy levels between the transmitter and receiver are the same, that destroys the quantum entanglement.
The primordial black hole can make the stable quantum entanglement possible.
But there is one more thing that can make that machine more powerful than nobody expected. That thing is the primordial or quantum-size black hole. When researchers think about this interesting phenomenon one of its purposes can be the spontaneously formed quantum entanglement. In that model, the primordial black hole can be behind the receiving part of quantum entanglement.
The laser ray that puts particles into the quantum entanglement travels into that black hole. Or the quantum-size black hole can simply pull the quantum field over the anchored particles or particle groups. That can make the static superposition between those particle pairs. The comb can also create microscopic black holes for each superpositioned and entangled particle pair.
https://scitechdaily.com/electrons-frozen-yet-free-a-quantum-breakthrough-in-graphene/
https://scitechdaily.com/scientists-develop-artificial-neurons-that-mimic-human-perception/
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