There are lots of data stored in superconducting material in the universe.

 

Scientists have long time predicted that there is a connection between the physical universe and information. All material in the universe can turn to energy and backward. So energy is wave movement. And wave movement is information. 

When we are thinking about information like wave movement and especially radio waves there is lots of data stored in superconducting material all around the universe. The problem is how to make that information come out from material? 

But if that thing is someday possible to make. That thing would bring new data about the beginning of the universe and even aliens. The thing is that the metal bites are storing data if they are superconducting. And that data can download to the computers. The process is similar to the qubit and the system must know precisely the frequencies and power of the radio transmission. 

The data is downloaded to the radio by using an antenna or the object will stress from the opposite side by using radio waves. And in that case, the radio signal is used as a carrier. The receiver will observe the changes in the carrier wave. And that thing will make it possible to return the data that is stored in the particles. Of course, the process is not so easy as I described. 

Sources

https://scitechdaily.com/physicist-quantifies-amount-of-information-in-entire-visible-universe/

The black hole laser can have quantum computer and communication applications.

How it works: diagram showing how a soliton (top) plays the role of a mirrored laser cavity (bottom). (Courtesy: Haruna Katayama/Hiroshima University)(https://physicsworld.com/a/black-hole-laser-could-have-quantum-computing-applications/)

The X- or gamma-rays can use for non-radio communication through walls. 

In some visions, robots of tomorrow would communicate by using X-ray systems. The robots are using cathode rays and X-ray cameras for communicating through walls. The X- or gamma-ray-based communication system can make it possible to make a communication system that is impossible to track. 

That kind of theoretical communication system is always immune against the radiosonde.  In the future robots can use X-ray systems for communicating in areas where is lots of radio turbulence. And if some systems like eavesdropping equipment are using X-ray LED for communication that makes them impossible to detect. And the same systems can use to make the X- or gamma-ray images of the targets. So those systems will be multipurpose tools. 

Hawking radiation could be an interesting tool for communication. 

The principle of the black hole laser is simple. The laser ray will target to soliton which increases the power of the wave movement. And when the power of the wave movement is high enough that thing should transmit Hawking radiation to outside the soliton. Term soliton means the wave packet that strengths itself. Hawking radiation is one of the most interesting things that can use to transmit data. 

Only black holes are creating this type of radiation. And that means the Hawking radiation can use to data transporter. There is the possibility to make a laser system that can transmit data by using Hawking radiation. If there is some kind of sensor that can receive Hawking radiation. 

And transfer it to the electric signal that things can use to communicate through walls by using some other electromagnetic radiation than radio waves. The Hawking radiation along with Gamma- and X-ray frequencies could open new routes to communication technology. Those frequencies of radiation offer a new way to communicate through walls. 

https://physicsworld.com/a/black-hole-laser-could-have-quantum-computing-applications/

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

Image:https://physicsworld.com/a/black-hole-laser-could-have-quantum-computing-applications/

https://thoughtandmachines.blogspot.com/2021/10/there-are-lots-of-data-stored-in.html