The excitons are quantum ghosts that can play a big role in next-generation computing.

Excitons might have a bigger role in natural information transfer than nobody expected. And they can be the key elements in the next-generation quantum systems.

The world is full of ghosts. Some ghosts are real. And one of those ghosts is a ghost particle called an exciton. The exciton is the quasi-particle where the electron orbit's its hole. That means the exciton is very close to the virtual atom. The exciton should have similar abilities to hydrogen, and the reason for that is that chemical reactions happen between electron orbitals.

A simple exciton is a situation where one electron orbits its hole, and adjusting that hole's depth is possible to lock other electrons around that hole. The excitons have a great role in the new types of quantum switches. The electron will lock in the wanted direction. And then the exciton aims the signal in the direction where the system needs to aim it. That makes that system suitable to use in ultra-small electronics. By adjusting the energy levels in the electron and its hole. The system can adjust the exciton's size.

Exciton in neural data transmission.

The thing is that the excitons might have a bigger role in nature than we ever imagined. Researchers are found the secret link between photosynthesis and excitons. So maybe excitons are playing also a big role in the information transfer between neurons and neurotransmitters. The ability to change the size of the exciton makes it possible that the excitons can transmit information between antennas.

Even if they have different sizes. If another antenna is bigger than another, the system requires the adapter. And the exciton can act as an adapter. The artificial neuron can use miniaturized ion cannons to send ions. That is acting as neurotransmitters. And excitons can load information to those ions when they travel through the ion gate.

"Frenkel exciton, bound electron-hole pair where the hole is localized at a position in the crystal represented by black dots". (Wikipedia/Exciton)

So in this text, system means neurons, and qubits mean neurons.

If a neurotransmitter is a series of belt-looking protein structures the neuron can load electricity to those belts by using excitons. Then that pile of magnesite-loaded proteins will travel to another neuron, where small receptors will read every state of that chemical qubit. The system must just know which side the neurotransmitter is loaded and then it must know which side is the first when it docks to the neuron's gate.

That allows the system, or in this case, neuron, to upload information in it. Then the qubit, or in this case: neurotransmitter will be crushed. If that crush will not happen the neuron reads it again, and that causes the death. The nerve gas denies the action of that enzyme that crushes neurotransmitters.

When the system transmits information from the antenna to the qubit it can use excitons to make that thing. In that model, the qubit is like a pile of belts. The system will put exciton around the belt, and then that belt will pull electrons to its shell. That allows the situation, where the electron can transfer its information to those belts. And those belts can be proteins. So this thing might be the key to transferring information between chemical qubits and neurons. The neurotransmitters are chemical qubits.

If that thing is possible to create in the laboratory. It makes it possible to create a quantum computer that operates at room temperature. Sometimes I wrote that chemical qubits are meaningless or they will never be made. I was wrong.

The protein belts can form chemical qubits. And there is a possibility to use the proteins in extremely small-size tape stations. There could be a series of magnesite bites as rows on the surface of that protein. And then each line of magnesite is one state of the qubit. That thing allows to create small-size but powerful quantum- or virtual quantum systems, that can control miniaturized drones.

https://scitechdaily.com/natures-quantum-secret-link-discovered-between-photosynthesis-and-fifth-state-of-matter/

https://en.wikipedia.org/wiki/Exciton

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