Researchers working at the National Institute of Standards and Technology (NIST) have demonstrated for the first time the existence of a key magneticâas opposed to electronicâproperty of specially built semiconductor devices. This discovery raises hopes for even smaller and faster gadgets that could result from magnetic data storage in a semiconductor material, which could then quickly process the data through built-in logic circuits controlled by electric fields.
In a new paper, researchers from NIST, Korea University and the University of Notre Dame have confirmed theoristsâ hopes that thin magnetic layers of semiconductor material could exhibit a prized property known as antiferromagnetic couplingâin which one layer spontaneously aligns its magnetic pole in the opposite direction as the next magnetic layer. The discovery of antiferromagnetic coupling in metals was the basis of the 2007 Nobel Prize in Physics, but it is only recently that it has become conceivable for semiconductor materials. Semiconductors with magnetic properties would not only be able to process data, but also store it.
Neutron Researchers Discover Widely Sought Property in Magnetic Semiconductor
Posted: Feb 06,2009 by Ron Mertens
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The discovery of antiferromagnetic coupling in metals IS NOT the basis of the 2007 Nobel Prize in Physics. The discovery is Giant Magnetoresistance (GMR) related to spin dependent scattering which has nothing to do with antiferromagnetic coupling.