The photon interaction between atom pairs can make the new type of data transportation and quantum radars possible.

Image Credit: Ella Maru studio/Phys.Org:/Scientists get photons to interact with pairs of atoms for the first time

The photon interaction between atom pairs is not meanless. That thing can use as data transportation in quantum systems. Or it can use in quantum radars. 

The scientists made photons interacting between two atoms. And that thing can make it possible to make the new type of quantum computers. The quantum annealing system can use this phenomenon to turn the bits into qubits. 

The photons that are jumping between atom pairs can be used to send very highly accurately adjusted radio waves. And that system can be the heart of the quantum radars. 

The new quantum radars can also use this thing. When the distance between atoms is adjusted and the energy is pumped to that system, it allows to send and receive wave movement that wavelength can adjust very accurately. That system can uncover the aircraft that uses stealth technology. By adjusting the distance of the atoms is possible to adjust the wavelength of the transmitted radio waves. 

The quantum radars can observe dark material and stealth systems. The system uses an indirect observation method. The stealth aircraft and dark matter cannot see by using radars. But the interaction between those things and their environment can be observed. 

In the other and more futuristic system the photons are jumping between atoms that are forming the cloud, but the problem is how to station that atom cloud. If something flies in that cloud, the system detects the changes in the form of the atoms. 

And that thing should uncover the stealth aircraft. The problem is that this interaction should be done over long distances. In that futuristic system, the photons can jump between atoms in 3D or 2D vertical structures. And if that kind of thing is possible to make it can uncover every stealth aircraft in the world. 

The "indirect observation" means that the system cannot see the object itself. But it sees the interaction between an object and the material around it.

The idea of the traditional quantum radar is to use ion fields. The radar sees the movement of the ions. And if the stealth aircraft is coming to that field the radar sees when the form of the ion cloud is changing when something penetrates in it. This is called "indirect observation". The radar cannot see the aircraft, but it sees the gas or ions that stealth aircraft is pushing away from it. 

But the photon interaction between two atoms is also offering to make quantum antennas that can detect dark matter. The idea is that the distance between atoms can adjust very accurately. 

And that thing makes it possible that the system can detect the wave movement or wavelength that source is in dark matter. The idea of the quantum antenna is the wave movement is interacting with the photon which is jumping between atoms. The wave movement is causing that the brightness of that photon is increasing. That changed energy level in the brightness of the photon can be measure. And that thing can uncover the secrets of the universe. 

()https://phys.org/news/2021-08-scientists-photons-interact-pairs-atoms.html

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