Sep 20

Researchers create working quantum bit in silicon, pave way for PCs of the future

Posted in: Today's Chili

Researchers create working quantum bit in silicon, pave way for PCs of the future

If you’ve been paying attention, you know the quantum computing revolution is coming — and so far the world has a mini quantum network, not to mention the $10,000 D-Wave One, to show for it. Researchers from the University of Melbourne and University College, London, have now developed the “first working quantum bit based on a single atom of silicon.” By measuring and manipulating the magnetic orientation, or spin, of an electron bound to a phosphorus atom embedded in a silicon chip, the scientists were able to both read and write information, forming a qubit, the basic unit of data for quantum computing.

The team used a silicon transistor, which detects the electron’s spin and captures its energy when the spin’s direction is “up.” Once the electron is in the transistor, scientists can change its spin state any way they choose, effectively “writing” information and giving them control of the quantum bit. The next step will be combing two qubits into a logic step, with the ultimate goal being a full-fledged quantum computer capable of crunching numbers, cracking encryption codes and modeling molecules that would put even supercomputers to shame. But, you know, baby steps.

Filed under: ,

Researchers create working quantum bit in silicon, pave way for PCs of the future originally appeared on Engadget on Fri, 21 Sep 2012 00:47:00 EDT. Please see our terms for use of feeds.

Permalink The Register  |  sourceUNSW Australia  | Email this | Comments

No Comments | Tags: , , , , , , , , , , , , , , , , , , , , , , ,
Jun 27

CCNY, UC Berkeley develop lasers that could rewrite quantum chips, spin those atoms right round

Posted in: Today's Chili

CCNY, UC Berkeley develop lasers that could rewrite quantum chips, spin those atoms right roundComputers are normally limited by the fixed nature of their chipsets: once the silicon is out of the factory, its capabilities are forever locked in. The City College of New York and University of California Berkeley have jointly developed a technique that could break chips free of these prisons and speed along quantum computing. They found that hitting gallium arsenide with a laser light pattern aligns the spins of the atoms under the rays, creating a spintronic circuit that can re-map at a moment’s notice. The laser could be vital to quantum computers, which can depend heavily or exclusively on spintronics to work: a simple shine could get electrons storing a much wider range of numbers and consequently handling many more calculations at once. Research is only just now becoming public, however; even though gallium arsenide is common in modern technology, we’ll need to be patient before we find quantum PCs at the local big-box retail chain. Despite this, we could still be looking at an early step in a shift from computers with many single-purpose components to the abstracted, all-powerful quantum machines we’ve held in our science fiction dreams.

CCNY, UC Berkeley develop lasers that could rewrite quantum chips, spin those atoms right round originally appeared on Engadget on Wed, 27 Jun 2012 04:26:00 EDT. Please see our terms for use of feeds.

Permalink   |  sourceCCNY, Nature  | Email this | Comments

No Comments | Tags: , , , , , , , , , , , , , , , , , , , , , ,