Teleportation Could Be Possible Using Quantum Physics
- Submitted by: Love Knowledge
- Category: Science
In Brief
• Quantum physics could, theoretically, be used to fulfill the age old desire to teleport. However, any practical use is a an extremely long way off, with scientists only managing single particles so far.
In the video below, minutephysics explain how teleportation could be theoretically possible using quantum physics. Quantum teleportation uses quantum entanglement — a situation where one set of particles is dependent on the state of another. In principle, if scientists create specific sets of particles that are capable of being rearranged into whatever they wish to teleport, they can send partial information about one end of the entanglement — encoded as a quantum state — and thereby produce it in the other end. As an analogy: imagine taking a scan of what you want to transport, sending it to the other entangled particles, and rebuilding it from that.
While being able to transport anything large, like a cat — the example the video uses — is a long way off, scientists have managed to transport a single photon or electron about 100km. The difficulty lies in creating two entangled sets of particles and subsequently transporting one of them without it becoming disentangled.
This is linked to scientists achieving direct counterfactual quantum communication for the first time recently, which operates using the Zeno effect (freezing the situation by observing it) rather than entanglement. In the experiment, scientists successfully transported information using the phase of light.
Read more https://futurism.com/teleportation-could-possible-using-quantum-physics/
Related items
- Physicists Just Discovered That Some Elements Don’t Follow the Normal Rules of Quantum Mechanics
- New NASA Research Will Probe Inner Workings of Quantum Mechanics in Space
- Getting to the bottom of the Higgs boson
- China Set to Launch the World’s First Quantum Communication Network
- Scientists Just Teleported a Photon from Earth to Orbit for the First Time
Comments (0)