The dawn of quantum brains.
There is new silicon-carbide-based material. That brings researchers one step closer to quantum networks. The link to that article is here and below this text.
Maybe the futuristic quantum brains are looking like this. The 3D atomic structure where the electron-based qubits are transferring data in the electron chains and the atom-sized structures that act like neurons.
The system would make the revolution in the quantum systems. Theoretically is possible to make a quantum computer that can operate at room temperature. The AI makes it possible to calculate how much power the resistance of the wires is sucking from the qubits at a certain distance. That makes it possible to calculate the point where the qubit delivers energy and where it reaches a certain state of the qubit.
The problem with quantum computers is that they are loading information in electrons or some other particle. Then that thing will shoot to receive or data is sent by using superposition. In some visions, the qubit is shot through nanotubes to receivers.
But the problem is that the qubit requires extremely stable conditions. The outcoming radiation makes that qubit useless. Also, things like gravitational waves can affect the trajectory of the qubit.
So, how to make more powerful quantum computers that can operate in higher temperatures. One version is to use the molecular structure where the electrons are traveling as they would travel in the normal wires.
The idea of the quantum wires in this case is. That they are transporting qubits like other electrons. But in that case, the electron would transmit data in its internal structure. When an electron travels from another atom to the next atom. There is the possibility to calculate how much energy is delivered in that case. Theoretically is possible to transport the data of qubits by using the electron chains.
In that case, the electron transfers the information to the next electron. And that means the information can travel in the quantum computer like in regular electric wires. That means the superconducting wires can use as the data transporters in quantum computers. But in the wild visions, the quantum computer can operate also at room temperature.
The room temperature operating quantum computer requires information on how much power the resistance of the wire sucks from qubits. And of course, the required information is what is the distance where the qubit reaches a certain energy level. That information allows the quantum computer can deliver information of the qubit at a certain point of that cable.
There is one wild vision. That is connected with neurology and quantum computers. The idea is that the axons or qubit channels are surrounded by fast rotating plasma or quantum tornadoes. That thing makes the time dilation in the brains. And it makes it possible to create a system, that has more time to handle problems. But that thing is a theoretical way to connect quantum systems with biological brains.
Sources:
https://scitechdaily.com/new-silicon-carbide-qubits-bring-us-one-step-closer-to-quantum-networks/
Image) https://scitechdaily.com/new-silicon-carbide-qubits-bring-us-one-step-closer-to-quantum-networks/
https://thoughtsaboutsuperpositions.blogspot.com/
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