+

Cookies on the Business Insider India website

Business Insider India has updated its Privacy and Cookie policy. We use cookies to ensure that we give you the better experience on our website. If you continue without changing your settings, we\'ll assume that you are happy to receive all cookies on the Business Insider India website. However, you can change your cookie setting at any time by clicking on our Cookie Policy at any time. You can also see our Privacy Policy.

Close
HomeQuizzoneWhatsappShare Flash Reads
 

Physicists Make Big Leap In Quantum Teleportation

Sep 22, 2014, 03:15 IST

Physicists in Switzerland said Sunday they had succeeded in teleporting the quantum state of a photon to a crystal, in which information transited from light to matter, over a record distance of 25 kilometres (15.5 miles).

Advertisement

The experiment, conducted over optical fibre at the University of Geneva, beat the team's previous record in 2003 of six kilometres (3.7 miles).

It showed that "the quantum state of a photon can be maintained while transporting it into a crystal without the two coming directly into contact," the UNIGE researchers said in a statement.

Quantum teleportation touches on the theory of how atomic particles behave when pairs of them are "entangled" in a quantum state and start to respond like joined twins, even at a distance.

Cryptographers are deeply interested in this field because quantum particles could in principle be used to carry far more data than the binary code of today's computers, and their information would be impossible to crack. Simply to touch one of the "entangled" pairs would obliterate the message.

Advertisement

As a result, a major task is finding ways in which quantum data, coded in light, can be stored and processed in the real world of communications without the information being destroyed.

Exploring this, the researchers took two "entangled" photons and propelled one along the 25 kilometres of an optical fibre, while its twin was sent to a crystal, storing the photon's information.

Like a game of billiards, a third photon was sent to hit the first photon in the optical fibre obliterating both of them. Scientists then measured the collision and discovered that the information in the third photon was not destroyed, but made its way to the crystal, which also contained the second entangled photon.

Although usable quantum teleportation remains a far-off objective, this was an important lab advance, said the researchers.

"The quantum state of the two elements of light, these two entangled photons which are like two Siamese twins, is a channel that empowers the teleportation from light into matter," said Felix Bussieres, lead author of the work published in the journal Nature Photonics.

Advertisement

Copyright (2014) AFP. All rights reserved.

You are subscribed to notifications!
Looks like you've blocked notifications!
Next Article