Successful data transfer by laboratory teleport technology

By exploiting a quantum phenomenon called particle entanglement, the team said they were able to transfer data within a 10m distance without any connection.

Nanotechnology research scientists at TU Delft University in the Netherlands have recently announced the first success in transferring laboratory data with teleport technology . By exploiting a quantum phenomenon called particle entanglement , the team said they were able to transfer data within a 10m distance without any connection.

Professor Ronald Hanson, the head of the research project, said: 'Grain tangles are the most interesting consequence of quantum mechanics laws. When two particles become 'tangled', they lose their own nature and become the same as one, even if the distance between the two particles is very large. '

When an electron orbits the nucleus, the electron itself rotates around its axis (like the Earth rotates around its axis). When two electrons are tangled, ie they interact with each other and are then separated, they will rotate in the same direction. Basically, an electron will be the mirror image of the remaining electron.

If one of the two electrons is changed the direction of rotation by a certain method, the remaining electron will immediately change the direction of rotation. The distance between the two electrons in the study of the team is 3m, but theoretically this distance can increase to hundreds of light years.

In their experiment, scientists moved information in a quantum bit (qubit - similar to a standard bit in a computer) to another quantum bit, using a specially designed computer chip. . Each of these chips uses a synthetic diamond to hold tangled electrons and some nitrogen atoms.

Professor Hanson further explained: 'These chips use diamond as a center because this is the best environment to retain free electrons when a nitrogen atom occupies one of the carbon atoms. We can easily observe and study the activity of electrons and atomic nuclei in this environment. It is also possible to control the direction of rotation of electrons and read data '.

The electrons, after being separated, become entangled electron pairs and transferred to another chip. Then, with each data encoded into a chip, tangled electron pairs will accurately reflect and transfer the data to the remaining chip in a perfectly complete way without any connection.

With this result, scientists hope to create a quantum network for communication as well as internet connection between quantum computers. This will help transfer data at extremely high speeds and ensure safety, data theft is absolutely impossible. In the next project, the team will experiment with larger distances, possibly up to 1,300m with quantum chips located in different buildings of TU Delft University.

And in the future, maybe we will be able to build machines that can move material. Turning teleport technology in science fiction movies comes true.