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The quantum sensor outside the Kuiper Belt can give us a new view of the universe.

   

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The quantum sensor outside the Kuiper Belt can give us a new view of the universe.

The data is meant for serving something or somebody. So data is not produced for nothing, and all data that is published has meaning. Even if we are thinking something like the form of the black holes or some electromagnetic fields that seems meanless, we must realize that some other people think that the same phenomenon is very important for some purposes like quantum computing. Quantum mechanics is a very little known thing for the great public and before quantum computers, nobody even knew what to do with those things.

The oscillation of molecules is a very well known thing, but the oscillation of the fields around atoms can transport information across space. The thing is that even if we are thinking that things like sound are the movement of atoms, we are the same way forgetting that the speed of atoms can be near the speed of light. So the gas can bring us the data from the distant stars.

What if we could create the quantum sensor outside the Kuiper Belt? In this case, the system will pull electrons and ions inside it, and analyze the radiation that is stored in it. That sensor would be the quantum computer, which uses those ions and electrons as qubits. It will dismantle the data from those particles and send those bytes to Earth.

This kind of system needs extremely sharp and fast subsystems that can separate the radiation, what is stored in the electrons and ions. Even those quantum sensors will not notice signals from aliens, they can give researchers brand new information about the universe.

So what would somebody do with the stopped photons? If we are thinking that the ionized atom is traveling near the speed of light, the time is dilated in that tiny object. The extremely fast equipment can dismantle the electromagnetic oscillation that is stored in those ions. And during the long journey through the interstellar universe, there is lots of radiation touched in the ions.

Also, single electrons can act as natural but very small size hard disks, and that data can also dismantle. But the system must be very fast and sensitive. The superconducting sensor must be far enough outside the Kuiper Belt, and the mission of that system of the future is to dismantle the data from the beta radiation. That data can send to Earth for analysis.

But in the wildest ideas, the electron can send straight into the quantum computer that is operating at the edge of the solar system. Or the sensor itself would be the quantum computer, which captures electrons and ions from space. The system would analyze the electrons and ions as they would be the regular qubits. And that thing would open a new way to think about the universe.

Image: https://en.wikipedia.org/wiki/TAU_(spacecraft)

http://curiosityanddarkmatter.home.blog/2021/01/13/the-quantum-sensor-outside-the-kuiper-belt-can-give-us-a-new-view-of-the-universe/

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