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The ultra-broadband record with the entangled photons




The ultra-broadband record with entangled photons would also revolutionize data transmission. As many times before quantum technology makes it possible to create ultra-fast and ultra-secure data transmission systems. As you see in the image above text in this system the entangled photons are traveling sideways. And that makes it impossible to steal data from the system. 

In that system, there is possible to use two types of qubits. The qubits transmit data. And also control qubits. The control qubit means that both sides of the entangled photons are transmitting the same data package. That qubit is used to uncover if there are problems in the system. So in this kind of quantum system will travel by turns data transmitter and control qubits. 

The thing that makes the data transmission safe is that the control qubits or points the data can transmit precisely the same time to two sensors by using entangled photons. That means if there is some kind of difference in arriving time or another side of entangled photons would be missing. that tells there is something that has affected the system. 

There is introduced an idea to use the line of light or optic cables. For creating the room temperature operating quantum computer. The laser rays that are traveling in optic fiber would stress with other lasers. And the level of the brightness of the laser ray would be a certain state of the qubit. 

Sometimes is introduced an idea to create quantum computers that can operate at room temperature by using light- or optic fibers. In this version of the quantum computer, the optic fiber or even regular flat cable can turn data to travel in lines. The system uses similar technology to the internet. 

The key element in this system is the mass memories that are at the end of the wire. The data would be driven to the stand-by position in rows. Then a sliding window will read that data. And transfer it to the mass memory. And then those mass memories would start to travel in cable in the linear form. 

That kind of system can increase the power of binary computers. It shares the data in bites to the layers of the microprocessors. Or to the group of the microchips. And then data is connected behind those microchips. That's the new way to use regular microprocessors. 

So in this system, the flat (or optic) cable is forming the qubit. Data travels in every wire by using binary mode. And that kind of system would be a medium between the quantum computer and binary system. The system is the line of binary computers that are working at the same time and operate with different data bites at the same time. 


https://scitechdaily.com/quantum-physicists-set-ultrabroadband-record-with-entangled-photons/


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