Image I (C) IBM
Image I: https://www-03.ibm.com/press/us/en/photo/48259.wss
How to make quantum computers control robots or interact with regular computers?
How to make quantum computer control robots? There are problems with quantum computers that it cannot yet control robots alone. But if data input and output through the regular or binary computer layers, what is using a 0,1-bit system. That system allows that the regular or existing data networks can use for controlling robots. So the data will send to the quantum computer and back as image II (Image II) shows.
The idea is simple, the input of data will make to a regular computer. Then the regular computer would send to the quantum computer. And then that data would deliver back to the normal binary computer. The binary computer would control the things like radio transmitters and other kinds of stuff for controlling robots or using some other remote-control systems. The binary computers can be the same system, or they can be different systems. Those traditional computers are interacting with the quantum computer through the data network. And that allows this system controls the robots, drones, traffic lights, and many other things.
How data travel between regular and quantum systems?
1) Binary computer layer that inputs the data
2) Data line
3) Quantum computer layer
4 )Binary computer layer "2" receives the processed data after the data traveled through the quantum layer. And after that, the receiving binary computer sends that data to remote-control systems.
The one dimension quantum gas part II
The model of quantum wire
(+)(-)(+)(-)(+)(-)(+)(-)(+)(-)(+)(-)(+)
(+)=Positive particle (Ions, Fermions etc.)
(-)=Negative particle
Diagram I
Using positive and negative ions would be possible to make the quantum wire, what stays in its forms. If researchers would want to use the tiniest natural particles, that means that those people could connect the protons in one linear structure by using electrons as the glue. The electric wires of the opposite polar particles are connecting the wire in the one structure that stands the stress of electromagnetic fields. (Diagram I)
The one dimension quantum gas is like the cloud, where is only one layer of atoms. The one dimension quantum gas can use to make quantum wires, what are the long atom lines. Those atom lines can deliver data more secured than ever before. But they can also be used as virtual particle accelerators. The electron would put to travel in the energy fields of those chained atoms. And the energy would send to that atom line by using the radio transmitter.
The quantum wire is the line of atoms. This kind of structure can use to make linear particle accelerators, which size is virtually unlimited. The thing that might make this structure stable enough is to use protons or some other positive ions. And then glue them together by using negative ions.
If someday we could make the quantum wire, what is stable enough that the system can create the atom line from Earth to Moon. But the problem is how to make the atom line stay stable in that distance? The length of the line of the chained hydrogen atoms is theoretically unlimited, but how to make those structures stay in form?
But one of the most fascinating ideas is to use metallic quantum gas for making the extremely large antennas. In that system, the metallic atoms are delivered to space, and then that quantum layer of atoms is created by using the electromagnetic fields
Theoretically, this kind of antenna might not have a limit. The satellite would deliver that antenna or layer of metallic atoms to space. And when the antenna is not needed anymore those atoms can pull inside the chamber of the satellite. That kind of system would revolutionize reconnaissance satellites and radio astronomy.
https://www.eurekalert.org/pub_releases/2021-01/acoe-oqn011721.php
https://curiosityanddarkmatter.home.blog/2021/01/20/how-to-make-quantum-computers-control-robots-or-interact-with-regular-computers/
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