Electronics

Theoretical spin battery could see magnet powered cars

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A graphic representation of the overall device structure with the diameter roughly that of a human hairPic credit: Pham Nam Hai
A graphic representation of the overall device structure with the diameter roughly that of a human hairPic credit: Pham Nam Hai
A magnified image of the central part of the device - the white spots are atoms and the white circles are the nano-magnets, the "working part" of the devicePic credit: Pham Nam Hai

March 19, 2009 Researchers at the University of Miami and at the Universities of Tokyo and Tohoku, Japan, have been able to prove the existence of a "spin battery," that could have significant applications including much faster, less expensive and use less energy consuming computer hard drives with no moving parts, and could even be developed to power cars.

A “spin battery” is "charged" by applying a large magnetic field to nano-magnets in a device called a magnetic tunnel junction (MTJ). Like a toy car, the spin battery is "wound up" by applying a large magnetic field - no chemistry involved.

The secret behind this technology is the use of nano-magnets to induce an electromotive force. It uses the same principles as those in a conventional battery, except in a more direct fashion. The energy stored in a battery, be it in an iPod or an electric car, is in the form of chemical energy. When something is turned "on" there is a chemical reaction, which occurs and produces an electric current. The new technology converts the magnetic energy directly into electrical energy, without a chemical reaction. The electrical current made in this process is called a spin polarized current and finds use in a new technology called "spintronics." Also known as magnetoelectronics, this is an emerging technology, which exploits the intrinsic spin of electrons and its associated magnetic movement, in addition to its fundamental electronic charge, in solid-state devices.

The device created by University of Miami Physicist Stewart E. Barnes, of the College of Arts and Sciences and his collaborators proved that it is theoretically possible to store energy in magnets rather than through chemical reactions. “The device is potentially better than anything found so far,” said Barnes. "We had anticipated the effect, but the device produced a voltage over a hundred times too big and for tens of minutes, rather than for milliseconds as we had expected," Barnes said. "That this was counterintuitive is what lead to our theoretical understanding of what was really going on."

Although the actual device has a diameter about that of a human hair and cannot even light up an LED, Barnes says that the energy that might be stored in this way could potentially run a car for miles. Definitely sounds like an ‘attractive’ prospect - sorry.

Barnes’ study will be published in an upcoming issue of Nature and is available in an online advance publication of the journal.

Darren Quick

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