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Quantum Teleportation and Memory Demonstrated

Published by under Communications,News categories on March 2, 2008

Artistic Atom representation in blueResearchers created an experiment in which a quantum bit of information is transported across a distance of seven meters and briefly stored in memory. This is the first time that both quantum memory and teleportation, as the information transfer is known, have been demonstrated in a single experiment.

A quantum bit, or qubit, is the most basic unit of quantum information. It takes the form of a particular configuration, or “state,” of an atom or photon. Unlike a traditional computer bit, the most basic piece of information a computer can store, qubits represent the superposition of “0” and “1,” rather than either a 0 or 1. Additonally, a qubit cannot be copied in the traditional sense. It can only be transferred, without leaving any trace of the original.

Quantum teleportation is the way to transfer an unknown quantum state to a distant location without getting any information about the state in the course of this transfer. When a qubit is teleported across a distance, the process is remarkable in that the sending and receiving qubits are not physically connected in any way, and do not “know” of each other’s existence. But through a quantum phenomenon called entanglement (explained within the new “Cosmos connects by quantum entanglement“) , one qubit is nonetheless able to assume the quantum state of another without physically interacting with it.

In the present research, described in Nature Physics, an unknown quantum state of a photonic qubit is transferred into quantum memory via teleportation and is stored by two clusters of rubidium atoms. Each cluster contains approximately one million atoms, collected by a magneto-optical trap. The teleported photonic qubit can be stored in memory and read out up to eight microseconds (millionths of a second) before the state is lost.

The quantum states carried by the photonic qubits are encoded in the photons’ polarization, or the alignment of the photons’ emitted electric fields. Each rubidium cluster encodes the information as a collective spin state over all of the electrons in the cluster. Like other unchangeable properties like mass and charge, spin, or angular momentum, is an intrinsic characteristic of an electron.

First, the research group entangled the polarization state of the photons and the spin state of the atom clusters. This entanglement is then exploited to teleport the unknown state of a single photonic qubit onto an atomic qubit seven meters away. This is done by taking a simultaneous measurement of the entangled photons and the photon to be teleported. Taking that measurement entangles the two photons and projects the second photon’s state onto the atom clusters.

Such an interface to map the quantum states of photons onto the quantum states of matter, and to retrieve them without destroying the quantum character of the stored information, is an essential part of future quantum technologies.

This research may be a key step toward real-life quantum communication—the transmission of information using atoms, photons, or other quantum objects.


Comments

  1. helrazor says on February 12th, 2009 at 00:11

    A quantum bit, or qubit, is the most basic unit of quantum information. It takes the form of a particular configuration, or “state,” of an atom or photon. Unlike a traditional computer bit, the most basic piece of information a computer can store, qubits represent the superposition of “0” and “1,” rather than either a 0 or 1. Additonally, a qubit cannot be copied in the traditional sense. It can only be transferred, without leaving any trace of the original.
    Do you know ARQ mode in some systems of representing signals it is also the same.As a matter of fact it teleposts/ports data da symbols in alphabetic order.When the signals is sotred by CS control signal and like in the Galileo sistem the packets are received .I think it is like a form of the old system of retreiving that something new that is remodernated :)

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