Tidily tweaking electrons' twirls. (Electronic Acrobats).Controlling a quantum trait of electrons that could be vital for future computers may just have gotten easier. Instead of manipulating electrons' spins with microscale magnetic fields magnetic fields, n.pl the spaces in which magnetic forces are detectable; created by magnetostrictive ultrasonic scalers to cause the tips of instruments such as ultrasonic scalers to vibrate. , which tend to be weak and sluggish, researchers in California and Pennsylvania have devised a simpler, electric means of controlling the spins. The scientists did their experiments at a temperature near absolute zero. However, if the new tactic can work at room temperature, it would remove a major obstacle to the development of so-called spintronics--circuitry that exploits electronic spin in addition to electronic charge, says David D. Awschalom of the University of California, Santa Barbara History The predecessor to UCSB, Santa Barbara State College, focused on teacher training, industrial arts, home economics, and foreign languages. Intense lobbying by an interest group in the City of Santa Barbara led by Thomas Storke and Pearl Chase persuaded the State . He and Jeremy Levy of the University of Pittsburgh led a collaboration working toward this goal. Spintronic circuits would be faster, denser, and more energy efficient than conventional ones, the scientists predict. If the technique can also be extended to single electrons, it might lead to so-called quantum computers, which are expected to decipher codes and search databases millions of times faster than conventional computing machines can (SN: 2/1/03, p. 77; see story on page 124). The new work, reported in the Feb. 21 Science, is "an extremely important contribution to both spintronies and quantum computation," comments Michael E. Flatte of the University of Iowa Not to be confused with Iowa State University. The first faculty offered instruction at the University in March 1855 to students in the Old Mechanics Building, situated where Seashore Hall is now. In September 1855, the student body numbered 124, of which, 41 were women. in Iowa City Iowa City, city (1990 pop. 59,738), seat of Johnson co., E Iowa, on both sides of the Iowa River; founded 1839 as the capital of Iowa Territory, inc. 1853. Among its manufactures are foam rubber, animal feed, paper, and food products. The city is the seat of the Univ. . The spin of an electron generates a tiny magnetic field along the particle's spin axis. Spintronics schemes generally encode a stream of information as variations in the three-dimensional orientation of electrons' spin axes. Knowing that electrons' spins are pushed and pulled by magnetic fields as if the electrons were tiny bar magnets, spintronics investigators have struggled for years to incorporate compact magnetic fields onto semiconductor chips to control spin orientation. "It's very hard to produce tiny magnetic fields that are localized," notes Levy. He, Awschalom, and their colleagues skirted that challenge. They painstakingly fabricated a transistor-size microstructure mi·cro·struc·ture n. The structure of an organism or object as revealed through microscopic examination. microstructure Noun a structure on a microscopic scale, such as that of a metal or a cell atomic layer by atomic layer from the semiconductors gallium arsenide An alloy of gallium and arsenic compound (GaAs) that is used as the base material for chips. Several times faster than silicon, it is used in high frequency applications such as cellphones, DVD players and fiber optics. and aluminum gallium arsenide. They manipulated the composition and interatomic in·ter·a·tom·ic adj. Occurring, operating, or situated between atoms. spacings of the structure's crystal lattice crystal lattice Three-dimensional configuration of points connected by lines used to describe the orderly arrangement of atoms in a crystal. Each point represents one or more atoms in the actual crystal. so that the lattice would influence electrons' spins--without requiring microscale magnets. With the help of a laser, the team next produced within the microstructure many electrons with the same spin orientation. By applying voltages, the researchers pushed the electrons along specific trajectories through the structure. By the interplay between the electrons and the crystal, the spins were forced en masse en masse adv. In one group or body; all together: The protesters marched en masse to the capitol. [French : en, in + masse, mass. to take on new orientations and rates. Since even minute amounts of heat would disrupt the spins, maintaining the temperature near absolute zero was necessary, Awschalom notes. Is electric control of spin at room temperature possible? That's hard to say, says Awsehalom, quickly adding that the just-reported experiment "seemed impossible a year ago." |
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