The use of "fast neutrons" to transmit data has been successful.

Engineers have successfully transferred digitally encoded information wirelessly using nuclear radiation instead of conventional technology. Researchers made that test at Lancaster University. In that test, the neutrons transmitted data. Then the same data is saved in a laptop computer. 

Researchers of the Lancaster university UK haven been transmitted data by using radioactive radiation or sharper saying: the fast neutrons which source was Californium-252 isotope. The neutrons transmitted data wirelessly to the sensor. And that data is recorded by using the laptop.

Californium-252 is a synthetic isotope of the artificial element. And that means this kind of technology can use in long-term data transmission. If the oscillation circuit of the radio transmitter uses Californium as the oscillation crystal. 

That thing allows making an extremely safe communication line. No other element can create the same frequency. And that means the eavesdropper of the communication requires the highly radioactive Californium element. 

If the oscillation crystal is made by using synthetic isotopes like Californium. That means there are no natural sources for the same radiofrequency. And that thing will make it impossible to jam the communication that bases on this kind of system. 

The virtual qubits are possible to make by using multi-channel radio transmitters. But the problem is how to secure the data in the radio waves? One possibility is to replace quartz oscillation crystals by using some synthetic radioactive element. 

There are two ways to make the data transmitting by using neutrons. Another is to shoot the neutron itself to the sensor. And then it would release its data in the form of radiation. Another way is to anneal neutrons by using the laser. That thing means that the laser will load the neutron with energy. 

And then the neutron will release extra energy in the form of electromagnetic radiation. The data transmission would happen by using the superposition of neutrons. Or the neutron can turn to qubits. 

The technology where neutrons are sending electromagnetic radiation is used in neutron bombs. The nuclear detonator will load energy to neutrons. And then the radiation that is released when neutrons are removing extra energy from them is kicking neutrons out of the structure.

The quantum annealing-based system means that neutrons are like small-size lamps. When those lamps are stressed with the energy they are sending radiation. Neutrons would be perfect data transporters. 

They are neutral for electromagnetic fields. And they are quite a large size. But transporting data by using neutrons needs free neutrons. The quantum annealing makes it possible that neutrons are sending data in the form of electromagnetic radiation. But data transportation by using neutrons requires free neutrons as I wrote. That means the qubit must build inside the nuclear reactor. If that thing is made. 

This allows making a safe quantum data transportation system. If the quantum annealing-based quantum computer can create in the nuclear reactor. That thing allows creating extremely safe communication lines between ground stations and nuclear submarines. 

Even if the radio communication happens by using the traditional radio waves. The researchers can replace quartz crystals by using some synthetic elements like Californium or Neptunium. That means there is no way to make similar oscillation circuits without those synthetic highly radioactive isotopes. That thing will make secured communication between the nuclear submarines and ground stations possible. 

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https://scitechdaily.com/nuclear-radiation-fast-neutrons-used-to-transmit-digital-data-wirelessly/

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