British physicist claims to have made teleportation a reality

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A quantum researcher has created a new theoretical framework and computational scheme for wormholes, suggesting that a different form of teleportation is possible.

Dr. Hatim Salih, an honorary research fellow at the Quantum Engineering Technology Laboratories at the University of Bristol in the UK and co-founder of the DotQuantum initiative, argues that the scheme makes it possible to build a wormhole in a laboratory environment.

Wormholes are hypothetical structures that connect different points in space-time. In science fiction, those who pass through these holes are supposed to travel between distant points in space in the blink of an eye.

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Some physicists go so far as to argue that it is possible to artificially construct a traversable wormhole.

The concept is based on a special solution of the field equations of the famous physicist Albert Einstein and is consistent with the general theory of relativity. So far, however, none of these structures have been observed or their physical existence confirmed.

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However, Dr. Salih’s new framework, which he calls “counterportation,” points to a different way of constructing a wormhole in the laboratory that would build a verifiable bridge across space.

The paper, published in the scientific journal Quantum Science and Technology, argues that this scheme allows a small object to be reconstructed in space without any particle transit.

Which teleportation?

At this point, it should be noted that the idea of countertransference, like teleportation, is based on quantum computation and the principle of quantum entanglement.

Entanglement, an important component of quantum physics, is created when two or more particles interact in an interesting way. Thanks to this interaction, changes in one particle affect the other. Entangled particles continue to affect each other even when they are at great distances.

In quantum teleportation, the quantum state of a particle (whether it is a wave or a particle) is transferred to a pre-existing entangled particle in another location.

This is why the teleportation technology that scientists are working on today requires all the basic ingredients for the quantum information to be encoded, namely a transmitter and receiver at both ends.

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Such technology could pave the way for an extremely fast and secure internet in the future, where quantum computers or sensors are connected to each other and share quantum information.

Quantum teleportation, on the other hand, is often portrayed differently in science fiction. The teleportation imagined in science fiction ignores the existence of “transmitting and receiving” sensors.

The counter-transmission proposed by Dr. Salih is closer to the idea of teleportation in science fiction. According to the scientist, the new quantum computing technique can reconstruct the object in question at a different point “without any particle transfer”.

Salih says he is working with leading quantum experts to build a verifiable and observable wormhole in the laboratory and test his theory:

The goal for the near future is to physically build such a wormhole in the lab. This wormhole could be a testbed for competing theories and even theories of quantum gravity.

Until that happens, however, it seems impossible to prove that Salih’s teleportation technique is real.

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