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The radio-based quantum WLAN allows ultra-secure communication through the wall.

   

 The radio-based quantum WLAN allows ultra-secure communication through the wall. 




The radio-frequency-based quantum network makes it possible to create a long-distance communication line between quantum computers. 


Ultra-secure communication between quantum computers is one of the most important things in computing. The fact is that the nano-size quantum antennas provide make an extremely powerful radio wave-based communication which is extremely hard to break. This means long-range communication between quantum computers can be secure by using antennas that can create unique wavelengths. The thing is that the power of quantum systems is extreme. 

And they can break almost any code that is made by traditional algorithms. The ability to use the unique wavelengths that cannot produce anywhere else makes the communication secure. And the other thing is that the unique, "non-natural" wavelengths are making it possible to create the error-free communication line between quantum computers. This thing makes it possible to create quantum data networks for radio-weave-based communication. 

The multi-band radio uses multiple wavelengths at the same time. Can make it possible to create radio-wave-based qubits. That can transmit data with ultra-fast and ultra-secure mode. The thing that makes the quantum networks secure is that if the data is traveling in the form of a qubit the data's entirety is hard to collect. In the radio-wave-based qubits, the system shares data entirety between different wavelengths. The quantum network sends data forward using all frequencies at the same moment. 

And the ability to use multiple bandwidths at the same time means that eavesdropping on this kind of network is very hard. Even if the eavesdropper would find out one of the frequencies that the quantum network uses that hostile operator cannot collect the data to entirety. And, of course, the eavesdropper must have the ability to follow all frequencies of the quantum network.

In the radio-wave-based quantum network, each frequency of the radio transmissions is a certain layer or the state of the qubit. So when qubit sends the data. Each of its states would have a match with the radio frequency. 

Each layer or state of the qubit is loaded to a certain radiofrequency. The thing that makes radio-based quantum networks interesting is that they can communicate through the walls. This kind of system can use with binary computers. But the best benefit can get is the communication between quantum computers. The communication between quantum computers. Must be secured and error-free. 

The thing that makes this type of communication difficult. Is that the quantum systems are extremely sensitive to the errors that are caused by radio waves and cosmic radiation. The energy impact to qubit is disturbing its energy load and that thing causes that delivering data from a certain level of qubits is impossible. 

For that operation, the quantum computer requires the beginning level of the energy load. Without that knowledge, the system cannot calculate the other states or layers of the qubit. So that means the qubit must protect against outcoming effects. 


https://scitechdaily.com/a-nanoantenna-for-long-distance-ultra-secure-quantum-communication/amp/


Image:1)https://scitechdaily.com/a-nanoantenna-for-long-distance-ultra-secure-quantum-communication/amp/


https://thoughtsaboutsuperpositions.blogspot.com/

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