"The new operating system is the first in the world that allows quantum computers with different kinds of qubits to function together in a single network. (Image credit: hh5800 via Getty Images)" (LiveScience, World's first operating system for quantum computers unveiled — it can be used to manage a future quantum internet)
The quantum network can offer a new. And a very secure way to communicate over distances. The quantum Internet will be a very trusted way to transmit data because data is connected with particles. The particle that travels in the quantum internet plays the same role as neurotransmitters play in the nervous system. The qubit can be a photon, electron, ion, etc.
Basically, the quantum network's principles are known. Details cause problems in the system. When the main problems are solved. The next step is to turn to solving problems with more and more accurate details.
And the final steps before the full-scale operating quantum networks are very short. When we think about this kind of network from the point of view of the R&D work the first steps are long, but then the accuracy increases and that makes the steps in advance turn shorter. So the last things before the goal are the longest.
But when the quantum network comes, that thing makes the ultimate state of security for communication.
A quantum network can be like a hollow tube.
That tube acts like a particle accelerator. And a qubit travels in that system. The system mimics the human nervous system. The problem is how to eliminate the Hall effect because vertical fields can damage information in a qubit when the system shoots it through the line. Another problem is unexpected effects like gamma-radiation that can destroy the qubit.
The qubit travels in the quantum channel mimics the axon. The computer centers mimic neurons. The system routes the qubits into the right routes.
And the computers or the nexus centers can also make copies of those qubits. And that subsystem sends them into different routes. The information about the right routes can travel in the shell of that system.
The quantum network might be closer than we think. The quantum computer is a good tool for controlling and administrating quantum networks. In those systems, every state of the quantum system can administrate or control certain quantum channels. The system can create a copy of the arrived qubit and send it back.
That allows the system to check. If there are some errors. The system requires at least a duplicate quantum line to make the data check. If both lines have identical solutions the answer is true. Increasing the number of data lines makes the system more trusted.
The quantum network can mimic the axon. Electric signals, or control signals operate the quantum route. Can travel in the quantum channel's shell.
The qubit can travel in the hollow quantum channel. The qubit has the same role as neurotransmitters in the human nervous system. The data that the qubit carries is connected to the particle. And that makes the quantum computer and quantum network safe. There are two ways to make the quantum network. The first one is to use the superpositioned and entangled particles.
But making that spooky action in distance possible at long distances is very difficult. Another way is to pack information into the particles like photons, electrons, or ions and shoot them through the quantum channel. The quantum channel itself is like a particle accelerator that accelerates those qubits. The problem is how to eliminate the Hall effect or Hall field from that channel.
Those vertical energy fields can destroy information from the qubit that travels through them. And other problems are things like fast energy bursts from the universe. Those things can destroy the qubit.
https://www.livescience.com/technology/computing/quantum-internet-breakthrough-after-quantum-data-transmitted-through-standard-fiber-optic-cable-for-1st-time
https://www.livescience.com/technology/computing/worlds-first-operating-system-for-quantum-computers-unveiled-it-can-be-used-to-manage-a-future-quantum-internet
https://en.wikipedia.org/wiki/Hall_effect
https://en.wikipedia.org/wiki/Qubit
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