“What we’re working on now could make these gadgets perform hundreds of times better and also be a hundred times more energy efficient,”
“We spent 15 percent of home energy on gadgets in 2009, and we’re buying more gadgets all the time,” says Peter Fischer of the U.S. Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab). Fischer lets you know right away that while it’s scientific curiosity that inspires his research at the Lab’s Advanced Light Source (ALS), he intends it to help solve pressing problems.
“What we’re working on now could make these gadgets perform hundreds of times better and also be a hundred times more energy efficient,” says Fischer, a staff scientist in the Materials Sciences Division. As a principal investigator at the Center for X-Ray Optics, he leads ALS beamline 6.1.2, where he specializes in studies of magnetism.
Fischer recently provided critical support to a team led by Vojt?ch Uhlí? of the Brno University of Technology in the Czech Republic and the Center for Magnetic Recording Research at the University of California, San Diego. Researchers from both institutions and from Berkeley Lab used the unique capabilities of beamline 6.1.2 to advance a new concept in magnetic memory.
“Magnetic memory is at the heart of most electronic devices,” says Fischer, “and from the scientist’s point of view, magnetism is about controlling electron spin.”
Magnetic memories store bits of information in discrete units whose electron spins all line up in parallel, pointing one way or the opposite to signify a one or a zero. What Fischer and his colleagues propose is multibit storage in which each unit has four states instead of two and can store twice the information.
The key is magnetic vortices – whirlpools of magnetic field – confined to tiny metal disks a few billionths of a meter (nanometers) in diameter. The electron spins are seeking the lowest possible energy; spins that point in opposing directions, antiparallel, cost energy. Thus the electrons line up with all their spins pointing in a circle, either clockwise or counterclockwise around the disk.
In the core of the vortex, however, where the circles get smaller and smaller and neighboring spins would inevitably align antiparallel, they tend to tilt out of the plane, pointing either up or down.
“So each disk has four bits instead of two – left or right circularity and up or down polarity of the core – but you must be able to control the orientation of each independently,” says Fischer.
Up, down, and around – taking control
Applying a strong, steady external magnetic field can reverse core polarity, but practical devices can’t tolerate strong fields, and they need faster switches. Previous researchers at the ALS had found that with weak oscillating magnetic fields in the plane of the nanodisk they could quickly nudge the core out of its central position and get the same result.
“Instead of a static field, you wiggle it,” Fischer explains. As the core is pushed away from the center of the disk, successive magnetic waves – changes in spin orientation – move the core faster and faster until its polarity flips to the opposite orientation.
The team used ALS beamline 6.1.2 to demonstrate, for the first time, that similar methods can control the circularity of the magnetic vortices.
In this case, the “wiggle” drives the core right off the edge of the disk. Once it’s expelled, the vortex collapses and reforms, with spins pointing in the opposite direction: clockwise instead of counterclockwise, or vice versa.
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