Photons are more suitable data transporters for quantum computers than electrons.

 

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Photons are more suitable data transporters for quantum computers than electrons.

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The diagram of the laser-based qubit

)))))))))))))))))))))))))))))))))))))     ::::::::::::

XXXXXXXXXXXXXXXXX     ::::::::::::

>>>>>>>>>>>>>>>>>>>>>>     ::::::::::::

XXXXXXXXXXXXXXXXX     ::::::::::::

))))))))))))))))))))))))))))))))))))      ::::::::::::

))))   = The most out laser ray

XXX = The middle layer laser ray

>>>  = The most in laser ray

:::::::  = Photovoltaic cells

The idea of the system is that the laser rays except the most in laser rays are hollow. That means that the qubit has four layers (0,1,2,3). Layers 0 and 1 is telling the system that the electricity is cut or electricity is on.  So the rest of the two (2 and 3) layers of the qubit can save for data transport. But the layers of the qubit is unlimited. And that thing makes the quantum computer so powerful. The system can slide between two layers and the tension between those layers can be higher than on the regular computer. 

If we are thinking of the quantum computer as the voltmeter what is connected to the wire. We might ask how the system knows that the electricity is on or off? The answer is that we are connecting light with its special cables in the system. So when the light is on the power is on. And when the light is off the power is off. Diagram two is about this system.

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Quantum computers simplified diagram

Diagram 2

When the light is on, the power is on. And that thing leaves the voltmeter for data transportation. That is the diagram of the simplified model of the quantum computer. 

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We always forget that the entire voltmeter is reserved for computing. So the level between the layers that used for data transfer is not needed to be very sharp. The system can translate the value as when  (0<X) the lower layer. And when (X<unlimited) the value is the upper value when X = the value.  So values are 2 if (0<X) and 3 if (X<unlimited) ((2) (0<X<unlimited)(3)). And the 0 and 1 are just reserved for special cable. That mission is to tell that the power is on or off. 

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Why lasers are more suitable for quantum computers than electrons?

The fact is that laser-rays are immune to electromagnetic turbulence, and that thing allows to make the quantum structures like qubits, what can be acting in the extremely low temperature. But the lasers can be used to form the qubit, which can act in long distances.  

If we would use internal laser rays, we would create the laser-based qubit. In that system, three lasers are sending three (or more) internal laser rays, which are traveling in the tube, which protects them from the dust and the other disturbing effect that can cause problems with the qubit. And the laser rays can be conducted to the photovoltaic cells, which are transforming the photons to electricity. 

So the question is could this system form the qubit or quantum computer, which can operate at room temperature or even at high-temperatures? The idea is that the internally installed laser rays would stress the photovoltaic cells, and that thing transforms the data back to electricity. Even the voltage of the electricity is low the power of the electricity can be increased by using transistors. 

More about this topic:

https://scitechdaily.com/super-fast-quantum-light-detector-paves-way-for-higher-performance-quantum-computers/