The photon teleportation

Diagram for quantum teleportation of a photon

Diagram for quantum teleportation of a photon

In the image above the particles are forming the quantum channel between them, and the other particle will send the photon. When the photon hits the quantum bits, it changes its form to the movement or oscillation of the quantum field. And when the energy travels to the last bit it transforms back into a photon. 

The model of a quantum channel 

The idea of a quantum channel is simple. When a photon hits the first quantum particle it's energy transforms to the oscillation of the quantum field will reach the last particle in the line it transforms back to the photon. 

The photon teleportation 

The photon teleportation means that the photon travels in the quantum field of the atom. That thing means that the photon is not able to see outside the quantum tube, which is forming the ring of the atoms. That thing also would keep the information safe, when it travels in the electric field of the atoms. 

So when we are thinking about the method of how to make the quantum channel, the most interesting way to make that channel is to put the atoms or ions in the linear position. The linear position of atoms means that the electrons are forming the rows, and the photon or some other particle can travel through the line of the electrons. 

The simplest way to make the quantum channel is to use the ions, which have the opposite mark of electricity. The ion channel would be long-standing and stable. The other version is to use the polar atoms, which is put on the opposite mark poles against each other. In some versions, the photon would travel in the nanotube or the series of fullerene molecules, which makes the unauthorized users unable to detect the photon. 

But this solution bases the nanotechnology. In some other ideas, the photon travels in the core of the fullerene tube, and that thing would be the key to make the effective multi-layer quantum channel for photons. 

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The diagram of the linear position of the electron cores of the homogeneous atoms

(Nucleus)****(Electron layers in asymmetric position)-(Nucleus)****(Electron layers in asymmetric position)

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What causes the linear position of the electrons to the ring of atoms?

What if we would use the atoms, what electron layer is positioning to the other side. That thing causes the asymmetry in the electric field of the atoms, and that thing makes it possible to set the atoms of the same element in the line. 

The thing that the successful quantum channel requires is that the power fields of the atoms would touch together. This thing requires that the electric capacity of the nucleus would be higher than the electrons, and that thing means that the atoms would pull each other together. 

So what makes the forming of this kind of channel so difficult is that the plus mark electricity must be stronger on the other side of the atom. And the other side would have stronger minus mark electricity. The electrons should be on the other side that the form of the tunnel is stable, and that thing requires a very effective quantum system.