Science fiction dream: Sci-fi enthusiasts have dreamt of being able to teleport from one
location to another since Gene Roddenberry popularised the idea in Star
Trek.
Researchers advance 'Quantum Teleportation'
Teleporting over 25 kilometres: Researchers from the University of Geneva, NASA's Jet Propulsion
Laboratory and the National Institute of Standards and Technology used a
superfast laser to pump out photons. Every once in a while, two photons would become entangled.
Once the researchers had an entangled pair, they sent one down the
optical fiber and stored the other in a crystal at the end of the cable.
Then, the researchers shot a third particle of light at the photon
traveling down the cable. When the two collided, they obliterated each
other.
Memory After Triangulation: Though both photons vanished, the quantum information from the collision appeared in the crystal that held the second entangled photon.
Physicists think quantum teleportation will lead to secure wireless communication — something that is extremely difficult but important in an increasingly digital world. Advances in quantum teleportation could also help make online banking more secure.
The research was published in Nature Photonics. (Quantum teleportation from a telecom-wavelength photon to a solid-state quantum memory)
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| Beam me up, Scotty pic:http://www.gizmag.com |
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| This image shows crystals used for storing entangled photons, which
behave as though they are part of the same whole. Scientists used these
crystals in their process of teleporting the state of a photon across
more than 15 miles (25 kilometers) of optical fiber. Credit: Félix Bussières/University of Geneva credit: http://www.jpl.nasa.gov/news/news.php?feature=4384 |
Memory After Triangulation: Though both photons vanished, the quantum information from the collision appeared in the crystal that held the second entangled photon.
Physicists think quantum teleportation will lead to secure wireless communication — something that is extremely difficult but important in an increasingly digital world. Advances in quantum teleportation could also help make online banking more secure.
The research was published in Nature Photonics. (Quantum teleportation from a telecom-wavelength photon to a solid-state quantum memory)
Date:
September 21, 2014
Source:
Université de Genève
Summary:
Physicists have succeeded in
teleporting the quantum state of a photon to a crystal over 25
kilometers of optical fiber. The experiment constitutes a first, and
simply pulverizes the previous record of 6 kilometers achieved ten years
ago by the same team. Passing from light into matter, using
teleportation of a photon to a crystal, shows that, in quantum physics,
it is not the composition of a particle which is important, but rather
its state, since this can exist and persist outside such extreme
differences as those which distinguish light from matter. (http://www.sciencedaily.com)
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