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Laser light turns free electrons into qubits.




The ability to turn or modulate free electrons into qubits is one of the most interesting things in the history of quantum computers. The quantum system can turn the radio waves or every kind of electron flow into a qubit. And that thing opens the new roads to long-distance quantum communication and quantum computing. 

If the electrons of radio waves would turn to qubits that would bring a new dimension to the high-power data transmission. The radio waves can carry regular data that would not need special encrypting. The special secured data can be closed in the quantum level of data transportation.

The long-distance data transmission would happen by using the fullerene or normal vacuum tubes. The electrons would send through that tube, and they can transmit data over long distances. Or maybe somewhere in the future, those qubits can send through the air. By using the laser ray as the protective quantum channel. 

That thing can make it possible to connect two or more quantum computers to a network by using their quantum states. That long-distance quantum connection will increase the speed of quantum systems. 

In normal quantum computers, the connection happens by using binary states. And that thing makes quantum computers slower than they could be. In normal quantum computers, the data will load to the quantum state by using the binary system that encodes data to the quantum state. 

When two regular quantum computers wanted to link to one entirety. That thing happens by using the technology where data is loaded back to binary level. And then sending to another quantum computer by using the Internet. And finally, the data would drive to the quantum state of the second quantum computer. 

If the quantum layers can connect straight together. That thing will improve the speed of those systems. The electrons that are traveling in the vacuum tubes or laser rays can transmit data over long distances.

But if the neutrino can transform qubit. That thing can increase the speed of data transmission over extremely long distances. The problem with neutrinos is that they are hard to produce and also hard to detect. But the neutrino qubits can make it possible to create interstellar or at least extremely long-distance communication. 

The idea is that those neutrinos will be superpositioned over long distances. But that requires the technology that can trap and superposition, and entangle neutrinos. Maybe the laser rays can make that thing possible. 

But the ability to change the free electrons to qubits is opening interesting roads to the quantum systems. Theoretically, every type of electron cloud can turn into a quantum annealing system. If the large-size electron cloud can turn to qubits that thing would bring the revolution to quantum computers. 

There is the possibility that the electron cloud would hover in the magnetic chamber. And then laser rays will shoot through it. That thing makes it possible to create new and larger-size quantum annealing systems. 

The electron clouds can hover in the vacuum chamber. And the thing is that those vacuum chambers can install in satellites or space probes. This thing makes it possible to drive more complicated artificial intelligence algorithms than ever before. Those quantum computers that are basing the magnetic chamber can also offer a new way to carry data. 

The magnetic chamber where is the hovering electron cloud can be used as the data transport system. And another version would be that the quantum USB-data transporter is used as the mobile quantum microprocessor. 

Those visions might be real in the distant future. But the fact is that advancing quantum computers is extremely fast. That means that nobody can predict the next step in quantum computing, which is the fastest advancing sector in the high-tech industry. 


https://phys.org/news/2021-11-laser-modulate-free-electrons-qubits.html


https://interestandinnovation.blogspot.com/

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