"Quantum teleportation is a method for transferring the quantum state of a particle or field from one location to another without physically moving the particle itself. It relies on a phenomenon known as quantum entanglement, in which two systems share strong correlations that cannot be explained by classical physics. Credit: Shutterstock." (ScitechDaily, Quantum Teleportation Breakthrough Sends 5 States at Once)
If we were to see quantum entanglement. Or, information is transmitted between two superpositioned and entangled particles. We would see two balls, and the thin yarn would connect those particles. When information travels between those particles. This event looks like a situation. Where the other yarn ball pulls a yarn string from another yarn ball.
Einstein’s spooky action at a distance, called quantum entanglement. It is one of the most interesting phenomena in the world. The information travels between two particles in the string. And that makes it possible. That. Quantum entanglement can transmit information faster than the speed of light. That would be possible. If there is a possibility of removing entropy from around that string. This means that there should be something that removes the field from around the string that transmits information. The quantum entanglement creates. The quantum shadow, or hole in the field. And in that hole would be no scattering effect.
Above: The wormhole, or at least an electromagnetic wormhole, might look like this. The energy string in the middle of it pushes the channel through the quantum field. The entropy in the wormhole. It will deny information. From staying in its form. The structure that transmits information in quantum entanglement. It might also look like this.
This allows information travel faster than it does outside that tunnel. So a photon travels faster. In the quantum shadow between those particles. The speed of a photon is not unlimited. But. It's faster than outside that quantum tunnel. There is a possibility. To transmit information in the string or use the string. Quantum entanglement is used. To push the tunnel through the field. The electromagnetic wormhole will allow photons to travel faster than they travel outside that tunnel. So, the system can send photons through that tunnel.
There is a possibility. That's the black hole. It is a group of qubits. This raises a question. About the problem. What if reseachers someday form the superposition and quantum entanglement that travels through the black hole? Could that thing be possible? Could quantum entanglement stand in the black hole? The model of the qubits on the black hole’s shell is formed by the idea that the black hole’s event horizons are full of potholes and hilltops. Those things can be the zeros and ones in the qubit.
"Encoded on the surface of the black hole can be bits (or quantum bits, i.e., qubits) of information, proportional to the event horizon’s surface area. When the black hole decays, it decays to a state of thermal radiation. As matter and radiation fall into the black hole, the surface area grows, enabling that information to be successfully encoded. When the black hole decays, entropy will not decrease, but rather will remain constant, as Hawking radiation is an entropy-conserving (adiabatic) process. How or if that information is encoded into the outgoing radiation is not yet determined.Credit: T.B. Bakker/Dr. J.P. van der Schaar, Universiteit van Amsterdam. "(BigThink, Ask Ethan: Can quantum entanglement survive a black hole)?
There is a possibility. That's the black hole. It is a group of qubits. This raises a question. About the problem. What if reseachers someday form the superposition and quantum entanglement that travels through the black hole? Could that thing be possible? Could quantum entanglement stand in the black hole?
And can a particle stand the energy of a black hole? This depends on the side on which the particle spins. If the particle spins in the same direction as the black hole, it could survive. If the particle spins in the opposite direction, the black hole erases it. The thing that erases the particle is simple. When a particle suddenly switches its spin direction, it must stop for a while. At that point, the particle releases all its energy. If the particle spin is in the same direction as the black hole, the black hole just increases its spin speed. The thing that erases the particle is the change in the direction of the spin.
The big question is: Can quantum entanglement bring information from the black hole? The black hole pulls all the information into it. There is a possibility that the superstrings. In the spinning black hole. They can turn. The energy flows opposite. But. Another way. It is to create a superpositioned particle pair. When the energy, or information, starts to flow into a black hole. The system can observe the particle that transmits information. The system must know how the information should travel between those particles. So, the system observes how transmitting particles offer information. And then it compares that thing with the real event. The event looks like a situation. There gravity rolls the yarn ball open.
Can this thing work? Nobody knows. The quantum entanglement should pass. The black hole photonic and plasma halo. To reach the event horizon. When we think about black holes and wormholes. The wormhole can form between two superpositioned black holes. Or the black hole halos can form an electromagnetic wormhole if they turn into a superposition. This means that. Some kind of tunnel. Between two points is possible.
https://bigthink.com/starts-with-a-bang/quantum-entanglement-black-hole/
https://scitechdaily.com/quantum-teleportation-breakthrough-sends-5-states-at-once/
https://scitechdaily.com/the-truth-about-wormholes-einsteins-bridge-may-rewrite-time-itself/
https://en.wikipedia.org/wiki/Wormhole
No comments:
Post a Comment
Note: Only a member of this blog may post a comment.