That teleportation happened between two quantum systems. That happened without moving qubits. So the researchers shot information in the form of quantum tape. Or wave movement through the quantum channel. That helps to scale quantum computers.
In old quantum systems, the qubits were unique. Quantum teleportation means that the data travels in quantum channels in the quantum entanglement. The data can travel faster in the quantum channel than outside it. That channel can be like an electromagnetic shadow between two particles.
And that means quantum entanglement can be extremely fast. And secure data transmission method. The idea is that data travels in the qubit or in the quantum string between two points. And that makes it impossible to eavesdrop on those signals. Quantum computers are tools that will change computing.
But they have one problem. Their power is so high, that only another quantum computer can check their calculations. The quantum computer can make calculations in hours, which the regular computer requires for the rest of the existence of the universe. The weakness of quantum computers is that.
They have not been scalable. Scalable quantum computers can check their solutions. The quantum channel is one kind of wormhole. Those channels are the things that are cleaned from molecules and crossing electromagnetic fields. And that thing means that. Light travels faster in quantum channels than it travels outside them.
The Einstein-Rose bridge or gravitational wormhole is only the most extreme version of the wormhole. Things, like nanotubes and Faraday cages can make electromagnetic wormholes where some side-coming electromagnetic fields are removed. That thing protects the quantum entanglements from outside effects. Quantum entanglement can exist only when another side of the entanglement is at a lower energy level.
The only known thing that can create the stable entanglement is the low-mass primordial black hole. The idea is that the photon would be in frame and that hypothetical black hole would be behind it. Then the transmitting side starts the data transmission between two photons. The black hole behind the receiving photon pulls energy into it. And keeps the stable entanglement in its form.
That system requires a black hole. That is not possible to get. But maybe in the future that technology is possible.
When the system makes the quantum entanglement it traps two photons in opposite frames. Then the system makes them oscillate synchronously. Then the system starts the data transmission. There are problems in putting mode complicated systems like atoms into quantum entanglement.
The system stresses some electrons that they send the photon. And then it puts photons in the superposition and entanglement. The system can freeze those photons on the atom's quantum field which is one way to make quantum teleportation.
The thing that could help the existence of the quantum entanglement would be a super cold environment. The idea is that the difference between those photon's energy levels should be as high as possible.
That maximizes the differences between energy levels in that quantum entanglement. There are two ways to decrease the energy level of the receiving part. The first way is to decrease the energy level before and the second is to decrease the energy level after the quantum entanglement is made.
In the last one, the system pumps energy out from the receiving part of the particle pair when the quantum system starts to transmit the data. The problem is that the quantum system must control the vibrations and oscillations of those particles. And energy pumping can cause non-controlled vibrations.
https://www.independent.co.uk/news/science/oxford-teleportation-quantum-computing-supercomputer-b2695851.html
https://www.sciencealert.com/teleportation-achieved-between-quantum-computers-in-a-world-first
https://en.wikipedia.org/wiki/Quantum_entanglement
https://en.wikipedia.org/wiki/Quantum_network
https://en.wikipedia.org/wiki/Quantum_teleportation
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