Entanglement breaks new record
From: sid myers (gloopencrotum_at_hotmail.com)
Date: 07/30/04
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Date: 30 Jul 2004 16:42:48 -0700
Source: http://physicsweb.org/article/news/8/6/18
Entanglement breaks new record
30 June 2004
Physicists have succeeded in entangling five photons for the first time.
Although four photons have been entangled before, five is the minimum
number needed for universal error correction in quantum computation.
Moreover, the same team has demonstrated a process called
"open-destination teleportation" for the first time (Z Zhao et al. 2004
Nature 430 54). The results represent a major breakthrough in efforts to
exploit the laws of quantum mechanics in quantum information processing.
By taking advantage of quantum phenomena such as entanglement,
teleportation and superposition, a quantum computer could, in principle,
outperform a classical computer in certain computational tasks.
Entanglement allows particles to have a much closer relationship than is
possible in classical physics. For example, two photons can be entangled
such that if one is horizontally polarized, the other is always vertically
polarized, and vice versa, no matter how far apart they are. In quantum
teleportation, complete information about the quantum state of a particle
is instantaneously transferred by the sender, who is usually called Alice,
to a receiver called Bob. Quantum superposition, meanwhile, allows a
particle to be in two or more quantum states at the same time.
Jian-Wei Pan at the University of Heidelberg in Germany and colleagues at
the University of Science and Technology of China in Hefei and the
University of Innsbruck in Austria began by producing a high intensity and
ultra-stable source of entangled photons. Next they used two entangled
pairs of photons to generate a four-photon entangled state, which they
then combined with a single-photon state. They were able to produce a
five-photon entangled state by detecting the coincidence of five photons.
To demonstrate open-destination teleportation, Pan and co-workers first
teleported the unknown quantum state of a single photon onto a
superposition of three photons. They were then able to read out this
teleported state at any one of the three photons by performing a
measurement on the other two photons.
"Although our experiment might seem to be only a modest step forward, the
implications are profound," Pan told PhysicsWeb. They plan to use their
five-photon set-up to demonstrate "bit-flip error rejection" for quantum
communication and to make a non-destructive controlled-NOT gate for
quantum computation.
Author
Belle Dumé is Science Writer at PhysicsWeb
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