New research brings closer a new type of computer memory that would combine the capacity of a magnetic hard disk with the speed, size, and ruggedness of flash memory.
The storage technology, called racetrack memory, was first proposed in 2004 by Stuart Parkin, a research fellow at IBM's Almaden Research Center in San Jose, California. Now a team led by Parkin has determined exactly how the bits within a racetrack memory system move under the influence of an electrical current. This knowledge will help engineers ensure that data is stored without overwriting previously stored information. The new work also helps explain a mystery that surrounded the basic physics of the racetrack memory—whether the bits act like particles with mass, accelerating and decelerating, when moved by electric current. "To further develop racetrack memory, we need to understand the physics that makes it possible," says Parkin.
In racetrack memory, bits of information are represented by tiny magnetized sections called domain walls along the length of a nanowire. These domain walls can be pushed around—to flip a bit from "0" to "1" or vice versa—when electrical current is applied. Unlike current storage technology, racetrack memory has the potential to store bits in three dimensions, if the nanowires are embedded vertically into a silicon chip. The stored information is read magnetically.
In 2008, the journal Science published a paper coauthored by Parkin that showed how multiple domain walls can traverse the length of a nanowire without being destroyed. The new work, also published in Science, specifies the velocity and acceleration of domain walls as they make their way along a nanowire when an electrical current is applied.
"There's been debate among theorists about how domain walls will respond," says Parkin. Researchers understood the motion of domain walls when they were exposed to magnetic fields, but they still had questions about how domain walls move in response to an electrical current—a crucial point because an actual memory device would use electrical current to manipulate bits. One important question was whether domain walls would behave like particles with mass, taking time to speed up and slow down.
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