Too Cool For Words
Even for the crazy world of quantum mechanics, this one is twisted. A quantum computer program has produced an answer without actually running.
The idea behind the feat, first proposed in 1998, is to put a quantum computer into a “superposition”, a state in which it is both running and not running. It is as if you asked Schrödinger's cat to hit "Run".
With the right set-up, the theory suggested, the computer would sometimes get an answer out of the computer even though the program did not run. And now researchers from the University of Illinois at Urbana-Champaign have improved on the original design and built a non-running quantum computer that really works.
They send a photon into a system of mirrors and other optical devices, which included a set of components that run a simple database search by changing the properties of the photon.
The new design includes a quantum trick called the Zeno effect. Repeated measurements stop the photon from entering the actual program, but allow its quantum nature to flirt with the program's components - so it can become gradually altered even though it never actually passes through.
"It is very bizarre that you know your computer has not run but you also know what the answer is," says team member Onur Hosten.
This scheme could have an advantage over straightforward quantum computing. "A non-running computer produces fewer errors," says Hosten. That sentiment should have technophobes nodding enthusiastically.
posted by Scott at 10:46 PM
2 Comments:
02 25 06
Great post I love this topic and quantum computing is really hot. I like looking at the IBM page on quantum teleportation. But this post really takes the cake! But if you think about it, the postulates of quantum mechanics are not violated by this process because before one takes a measurement of an observable, the observable is in a superposition of all of its eigenstates anyway.
What I think is interesting is that this quantum strangeness can be used to send information. Now, I need to reconcile this information with the No Cloning Theorem, which holds that one cannot reproduce an unknown quantum state. Hmmmmm Thanks for stimulating the mind:)
02 26 06
Hello again:
I was thinking more about this article and I have figured it out. When they send the photon through the configuration of mirrors, they know what state the photon is in AND whatever processes the photon goes through are unitary, as not to change its norm. I wonder how they prepare the photon, AND if they use a coherent stream of photons for the experiment or not. I also wonder how strongly the state of the prepared photon is coupled to the outside thermal environment. I looked up an experiment done in 1989 which verified the Quantum Zeno effect. And the Zeno Effect is strongly correclated to that coupling. Cool post!
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