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Tuesday, April 15, 2008 Toward a Quantum InternetA quantum logic gate in an optical fiber could lay the foundation for a quantum computer network. By Kate Greene
The promise of quantum computers is tantalizingly great: near-instantaneous problem solving, and perfectly secure data transmission. For the most part, however, small-scale demonstrations of quantum computation remain isolated in labs throughout the world. Now, Prem Kumar, a professor of electrical engineering and computer science at Northwestern University, has taken a step toward making quantum computing more practical. Kumar and his team have shown that they can build a quantum logic gate--a fundamental component of a quantum computer--within an optical fiber. The gate could be part of a circuit that relays information securely, over hundreds of kilometers of fiber, from one quantum computer to another. It could also be used on its own to find solutions to complicated mathematical problems. A logic gate is a device that receives an input, performs a logic operation on it, and produces an output. The type of gate that Kumar created, called a controlled NOT gate, has a classical-computing analogue that flips a bit registering a "1" to "0," and vice versa. Quantum logic gates like Kumar's have been built before, but they worked with laser beams that passed through the air, not through fiber. The new gate lays the foundation for experiments that demonstrate the abilities of quantum computers in fiber, says Kumar. "The exciting thing here is that an application is within reach," he says. Within the next year, Kumar and his team plan to test the gate in a specific application: conducting a complex auction over a secure quantum network. Researchers at IBM, MIT, and many other corporations and universities have been working on quantum computers since they were first proposed in the 1980s. A quantum computer is a device that processes bits of information by exploiting the weird quantum-mechanical properties of particles such as electrons and photons. A quantum computer is theoretically able to process exponentially more information than classical computers can. The unit of information in a classical computer is the bit, which represents either a "1" or a "0"; but in a quantum computer, it's the qubit, which can represent both a "1" and a "0" at the same time. Since qubits compute with multiple values at once, the processing power of a quantum computer doubles with each additional qubit. This characteristic would enable a quantum computer with only a couple hundred qubits to significantly outperform today's best supercomputers. Kumar's group makes qubits out of photons that are "entangled." That means that their physical characteristics, such as polarization, are linked in such a way that if one photon assumes a particular physical state, the matching photon instantly assumes a corresponding state. A few years ago, Kumar demonstrated that optical fiber itself could cause photons to become entangled, and that they would remain entangled over a distance of 100 kilometers. His recent work, described in Physical Review Letters, goes one step further, creating a logic gate that entangles photon pairs. |
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Quantum Leap
07/17/2008
Comments
Shiladie on 04/16/2008 at 9:57 AM
36
also, with the qubit, is it simply taking the X^2 of binary we know and love and making it X^3 by adding a 3rd option? or is there more that I'm not understanding?
brunascle on 04/16/2008 at 1:47 PM
Web Developer
70
not really. from what i understand, a qubit is kind of like a bunch of regular bits blurred together. each of those bits can only be a 1 or 0.
and a quantum computer is kind of like a bunch of classical (binary) computers blurred together, all running the same algorithm at the same time. each one comes up with a different answer, and if the algorithm is set up right, the one answer you're looking for will stand out above the rest.
Maverick Page on 04/16/2008 at 12:54 PM
1
bugme on 04/16/2008 at 1:20 PM
6
LarryH on 04/17/2008 at 11:50 AM
Senior Editor
7
warplayer on 04/16/2008 at 1:18 PM
2
This article really helped me wrap my head around the basics of quantum computers. And this article is just a bit more challenging but provides a great basis:
http://antoine.frostburg.edu/chem/senese/101/quantum/
Enjoy :)
warplayer on 04/16/2008 at 1:21 PM
2
jmaximus9 on 04/17/2008 at 1:13 AM
34
mergatroid on 04/18/2008 at 7:01 PM
14
When was the word quantum first uttered in relation to the atomic world? More than eighty years ago?
Geez, let's get going, fellas! God forbid some Bangladeshi, or heavens to Mergatroid, a North Korean brilliantly writes the paper of Papers ...! The humiliation we'll pass on to future generations, and it'll never lie down.
desolation0 on 04/19/2008 at 12:13 PM
13
Unfortunately, quantum computing is one of the areas I've started to allow other people to learn about instead of taking it on myself. I may be able to wrap my head around it all with enough effort but I'm beginning to realize how little impact I have on the subject compared with other areas. The amount of effort it takes to become an expert in this particular field is better left to someone more passionate about it than myself. It's basically become the next subject ignored in a line that started with Greek Tragedy.