How to miniaturize the quantum computer?

  

How to miniaturize the quantum computer?

There are two types of quantum computers.

1) Real quantum computers

Real quantum computers that are using qubits for transporting the data. That means that in that system the data transporting tool or qubit can have the extra dimension. The layers of the regular bit are 0 and 1, which means that when the value is 0 the electricity is cut. And 1 means that the electric is on. And qubits have also other layers, which means that it can transport data in multiple layers at the same time. 

The minimum layers in qubit are 4. Layer 0 would send the "stop bit" which tells that the electricity is cut. Layer one tells that the power is on, and the last two layers are reserved for data transporting. The diagram below is telling what purposes those layers of qubit has. But the problem is that this kind of system can operate only in the zero-kelvin degrees. 

Layers of the qubit:

0= Power is off

1= Power is on 

2= Data transporting layer

3= Data transporting layer'

2) Virtual ("Photon" or "two-layer") quantum computers

The last ones are the fastened versions of regular computers, which are using the same technology that is used in quantum computers. In this case, the photon would send to the quantum wire. Where the energy is turning to the oscillation of the quantum fields. 

When the oscillation reaches the last atom in the line, that thing would send the photon to the sensor. And in that case, the system uses the photovoltaic cell to make the 0 and 1 like in the regular computers. But this kind of system the components are much smaller than in some regular computers. This kind of computer can control the next generation of nanomachines. 

-------------------------------------------------------

The diagram of the quantum cable

#>>>>([-*+]) ([-*+]) ([-*+]) ([-*+]) ([-*+]) ([-*+]) ([-*+]) >>>> ///

####:Photon source

>>>>: Photon 

[-*+]: Polar atoms or other particles like neutrons

(): Quantum fields

-: Minus pole

+: Positive pole

////: Photovoltaic cell (Photon receiver)

-------------------------------------------------------------------------

The miniaturization of a quantum computer is possible if the temperature of the system could be kept low enough. 

The size of the quantum computer is not necessarily very big. If we are thinking that the qubits are the series of oscillations in the quantum fields. The qubit is the line of atoms, ions, neutrons, or even photons, which are frozen in the line. In this case, the particles that have poles would turn in the line of what is acting like wire. Except for the oscillation of the quantum fields of the particles is transporting data. So the four-layer qubit is the four lines of those quantum fields. So, in theory, this kind of technology can be used in the nanomachines for making them extremely advanced and independent. 

But those machines can operate only in the temperature what is near zero-kelvin degrees, and the system must be created in the Bose-Einstein condensate. When the quantum fields in the row of polar particles are oscillating the last one in the line would send the photon to the detector. Neutrons are also polar particles, and they can also form the quantum cable, which is the key element in the miniature quantum computer. 

In this case, the quantum wires are making it possible to create the sugar-cube size computer, which has more power than in any other computer. And the miniature-size quantum computer can also be implanted in the human body, and it can communicate with brains. But the thing that makes this thing difficult to make in practice is that the atom lines could be stable only in the temperatures, which is near the zero kelvin degrees. If the temperature is too high, the oscillation would destroy the atom line and the "unnecessary oscillation" would also make it impossible to send the data between the quantum fields. 

Image: https://www.informationweek.com/why-quantum-computing-should-be-on-your-radar-now/a/d-id/1331946