Two-Photon Walk a Giant Leap For Quantum Computing

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Two-Photon Walk a Giant Leap For Quantum Computing

Posted by timothy on Thursday September 16, 2010 @12:05PM from the stochastically-awesome dept.

ElectricSteve writes "Research conducted at the University of Bristol means a number of quantum computing algorithms may soon be able to execute calculations of a complexity far beyond what today's computers allow us to do. The breakthrough involves the use of a specially designed optical chip to perform what's known as a 'quantum walk' with two particles ... and it suggests the era of quantum computing may be approaching faster than the scientific establishment had predicted. A random walk – a mathematical concept with useful applications in computer science – is the trajectory of an object taking successive steps in a random direction, be it over a line (with only two possible directions) or over a multi-dimensional space. A quantum walk is the same concept, but translated to the world of quantum computing, a field in which randomness plays a central role. Quantum walks form an essential part of many of the algorithms that make this new kind of computation so promising, including search algorithms that will perform exponentially faster than the ones we use today."

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"Quantum Walk" by countertrolling · 2010-09-16 12:18 · Score: 4, Funny

Here's how it looks under a microscope

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For justice, we must go to Don Corleone
Re: Two-Photons Walk by marcosdumay · 2010-09-16 12:27 · Score: 5, Funny

Just open your eyes, and see where you are. After seeing it you are not going to be anywhere else, but before looking, I can't really tell you.

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Rethinking email
Pre-emptive Explanation of Quantum Computing by mathimus1863 · 2010-09-16 13:30 · Score: 4, Informative

Because people always get it wrong every time a QC article hits slashdot, here's a link to my previous, highly-modded (upwards) post on QC:

http://slashdot.org/comments.pl?sid=1285849&cid=28520061

Quantum computers can do some cool things, but mostly solve problems no one cares much about (except a few of us mathematicians)
Padding Resume. by Anonymous Coward · 2010-09-16 13:56 · Score: 5, Funny

Seams like it about time to start putting 5 years of real world quantum programming experence on the old resume.
Some background by Interoperable · 2010-09-16 21:44 · Score: 4, Informative

Let me provide some context. This research group specializes in manufacturing arbitrary waveguide structures on chips, then coupling particular quantum states of light into them. The idea is to turn a large optical table worth of mirrors into a tiny chip. What they have done here, is allowed a two photon input state to interfere with itself in the waveguide structure.
While interesting technically, it isn't exactly a huge leap forward because the interaction is linear. What's needed for deterministic quantum computation with light is a very non-linear process. The waveguide structure can replace a large number of mirrors and compact the optics into a tiny space but, at the end of the day, mirrors aren't all that interesting for quantum computation. It is, however, worthwhile because of the impressive miniaturization and the technical challenge of working with quantum light in such tiny structures. A strong non-linear component will be needed for true optical quantum computation, but chips like these show a lot of promise for handling a lot of state preparation and measurement.

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So if this is the future...where's my jet pack?