The neural network can use laser-based systems for data transmitting and sensing the environment.

The quantum-binary hybrid network is the thing that can use for inputting data to quantum computers. The idea is that the data travels between binary processors in the quantum form. The long-distance noiseless photon-echo protocol can be the key to long-range quantum communication.

Quantum communication can use also with regular primary computers. And things like quantum radio telescopes look like the spider's net. Those systems are only the network of the laser rays. A quantum radio telescope measures the change of the energy level in the laser rays. 

When electromagnetic radiation impacts those laser rays it increases their energy level. That allows creating a powerful laser-based quantum antenna. The quantum systems can also use to exchange data between binary processors. 

The quantum antenna is not a necessary qubit. It could be the proton that is stress with photons. And if that system is delivering data to the nano-size microchip. The system is only the small-size radio receiver that works by using regular 0/1 based architecture.

For data transmitting the system can use electromagnetic stress from the structure of the microchip. The small antennas will transmit electrons to the quantum antenna. 

And the lasers can observe it during that process. The system can measure that stress by using the same lasers that are delivering data to the antenna. The neuro network-based architecture makes this kind of network computer very effective. 

Many applications can benefit quantum communication even with binary computers. Quantum communication makes it possible to create an unbreakable ultra-secure communication network. But the problem is how to make long-range and long-term quantum communication possible. 

The laser ray will stress the particle lice quantum crystal or even a single proton that is acting as an array. The idea is to create a laser-based hybrid network for connecting nanotechnical microchips to one entirety. 

The nanotechnical microchips are more effective than regular microchips. And that kind of system can be the medium between quantum teleportation and full-scaled quantum computers. The system uses small-size microprocessors. 

And the communication between those microchips is made by using the quantum system. This kind of system can be the gate between quantum computers and their remote users. The quantum communication network bases the idea that computers can connect from their microchips or CPU. Not by using the LAN or WLAN cards. 

In this model, the quantum array will install in the binary processors. And then the data can transfer straight between those microchips without the WLAN or LAN cards. There are the laser-LEDs that are pumping energy to the quantum array. And the same system can deliver energy also to the miniaturized microchips. The quantum array can act as the binary computer's data transmitter. 

And if it would position in the regular microprocessor. That data can be read by using the miniaturized photoelectric cells. If data travels between those units in the form of laser (or maser) rays. Those energy rays can use also other purposes than in data transmission. They can deliver electricity to the nanotechnical microchips. 

The quantum (or laser) networks can also be acting as sensors. 

But those systems can also "smell" if there is some high-energetic radiation or unexpected movements in air molecules. The laser network would act as one version of the quantum radars. The system can sniff if there are some chemicals in the air. 

And another thing that this system can make is detect stealth fighters. The system detects those aircraft by connecting data from the different sources to one big entirety. 

When aircraft moves through the air, it causes a pressure wave. And that pressure wave can be detected. That system can detect the movements of air molecules. And another thing is the changes in the energy level in those laser rays can detect by using sensors. 

That means the laser rays would be acting as the radio receivers. When radio wave interacts with laser rays that thing increases their energy level. So the quantum radio telescope would be only the group of laser rays that forming an image that looks like the spider's net. 

()https://scitechdaily.com/scientists-realize-noiseless-photon-echo-protocol-key-to-long-distance-quantum-communication/

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