Quantum computers and superposition

The C-60 molecule
Image: Wikipedia

Quantum computers and superposition

What mean the quantum layer superposition? The term "quantum layer superposition is well-known from the qubits, but this term is usually explained in very difficult ways. In this text terms, value and layer have the same meaning. The quantum layer superposition means that the particle can have many quantum layers or quantum spaces at the same time. So the qubit could be fullerene or C-60 molecule, where every each atom has different energy or electric layers. So the problem is that if we want to load the data to the ball-shaped C-60 molecule and store the different data packages to each carbon atom, we have problems reading that data.

Storing the data in each atom could happen by stressing them with photons, and then the C-60 molecule can turn to the data carrier, which has 60 layers. If one of the atoms in that molecule is replaced by using an iron. That allows the transport of the molecule by using the magnetic fields. But there is one other possibility to store data in atoms by using the quantum superposition, and this thing would be even more futuristic than use C-60 molecules in that process.

The quantum computer is only the voltage meter, which is connected to the electric wire. The system recognizes the changes in the voltage and uses them in the same way what normal computer uses bits. But the difference is that the normal computer cuts the electricity from the wire. But in a quantum computer, the electricity travels all the time. The normal microprocessor can compare with the case, where the light is turned on and off.

The qubit is like a hovering bit. The value of that thing ever reaches zero, which means is like some flashing star. The value of the qubit can go near zero, but it ever reaches that layer, while the quantum computer is on.

In this case, the data is read by light-cell, which separates the light, when the electricity is on. And dark when electricity is off. This is how the photon processor is working. In a photon processor, the electric wires are replaced by photons and the photovoltaic cells are metering is the light is on or off. If the photon hits the photovoltaic cell that sends 1one and otherwise zero in the two-dimensional system, what uses the standard bits where is layers 0 and 1.

In a normal processor, the light is the electric wire. And the photovoltaic-cell is replaced with the system that recognizes if the electricity is on or off. The quantum computer would be the light, what light oscillates. The light is always on but only it's brightness is changing. And the problem is how the light cell will separate the brightness of that light.

The thing that makes quantum computer and qubit so superior is that the qubit hovers above zero-level. This hovering means that the system doesn't use the time to conduct the electrons in the wire. The electricity travels in wire all the time while the system is on. But the differences with the voltage is the thing, what replace zero- and one in the quantum computer. The zero means that the electricity is cut in normal bits, but in the quantum computer, the system is no cutting the electricity, which makes it a more powerful and fast tool for calculations.

The thing is that each electron of the atom can be turned into data storage if the researchers can stress every each electron separately by using the photon emission, but the difficulty is that the targeting those photons is extremely difficult, and reading the data from those atoms is even more difficult than storing it. And that makes qubits extremely difficult to build. Storing data in the atoms of molecules is an old thing, but when we must store different bits in the different atoms, we are facing a problem, how to separate the electricity levels from the atoms of the C-60 molecule?

If we can store multiple data layers in some molecule, we can create the data transporter, which will break every record in the speed of the computers. Normal computers what has 64-128 bit processors have extremely powerful computing ability. But if those two-dimensional bits where the layers are 0 and 1 are replaced with qubits the speed of the computer will be rise to an extremely high level. The reason for that is the qubit doesn't need zero, and it must not cut the electricity off the wire as the normal computer does.

The extra-layer of the bit what makes it qubit gives it the abilities, what no normal computer has. The extra layer of qubit makes it hover above the base-layer, which is zero in the normal computer. And that would make the quantum computer so powerful tool.

Image: https://en.wikipedia.org/wiki/Fullerene

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