Cooled device unveils a quantum limit.Crafting tiny circuits and machines from fewer and fewer atoms, researchers are pushing technology deep into the realm of quantum mechanics quantum mechanics: see quantum theory. quantum mechanics Branch of mathematical physics that deals with atomic and subatomic systems. It is concerned with phenomena that are so small-scale that they cannot be described in classical terms, and it is . More than a decade ago, physicists discovered unexpected quantum behavior in electronic devices. Now, California experimenters have observed a quantum effect in mechanical characteristics of tiny structures as well. "It's the first experiment in which people clearly see quantum mechanics in mechanical structures," comments Leo Leo, in astronomy Leo [Lat.,=the lion], northern constellation lying S of Ursa Major and on the ecliptic (apparent path of the sun through the heavens) between Cancer and Virgo; it is one of the constellations of the zodiac. P. Kouwenhoven of Delft University of Technology Delft University of Technology, (Technische Universiteit Delft in Dutch) in Delft, the Netherlands, is the largest and most comprehensive technical university in the Netherlands, with over 13,000 students and 2,100 scientists (including 200 professors). in the Netherlands. Back in 1988, he and his coworkers made the surprising discovery that electrical resistance Electrical resistance Opposition of a circuit to the flow of electric current. Ohm's law states that the current I flowing in a circuit is proportional to the applied potential difference V. in certain devices would appear only in multiples of a basic amount, or quantum. The new experiment by Keith Schwab and his colleagues at the California Institute of Technology California Institute of Technology, at Pasadena, Calif.; originally for men, became coeducational in 1970; founded 1891 as Throop Polytechnic Institute; called Throop College of Technology, 1913–20. in Pasadena demonstrates a similar type of quantum for thermal conductance thermal conductance A measure of the ability of a material to transfer heat per unit time, given one unit area of the material and a temperature gradient through the thickness of the material. It is measured in watts per meter per degree Kelvin. , or the ease with which heat can flow. Reported in the April 27 NATURE, the results give a first peek into mechanical quantum effects that arise because wavelike particles called phonons--collective, mechanical vibrations of atoms--transmit heat, scientists say. The new findings also impose a fundamental limit on the transmission of information, says team leader Michael L. Roukes of Caltech. The group suspended a square plate of silicon nitride (Si3N4) A silicon compound capable of holding a static electric charge and used as a gate element on some MOS transistors. some 200 atoms thick above a hole in a silicon chip. Four 200-nanometer-wide wires of the same glassy nitride held the plate. The team cooled the device to nearly absolute zero. Theorists had predicted that at 100 millikelvins only four of countless possible vibrations in each wire would persist. One is a compression, another a twist, and the final two are types of flexing waves. Each of these vibrations would provide one quantum of thermal conductance per wire, according to the theory. Using thin, gold resistors deposited on the silicon nitride plate to both delicately warm the plate and measure its temperature, the experimenters found that the four wires' conductance was exactly 16 times the predicted quantum, as expected. The results confirm the quantum's existence and calculated value, says Schwab, now of the National Security Agency in College Park, Md. Refining its techniques may soon enable the team to detect lone phonons, Roukes predicts. "We're on the road to watching heat flow phonon phonon (fō`nŏn), quantum of vibrational energy. The atoms of any crystal are in a state of vibration, their average kinetic energy being measured by the absolute temperature of the crystal. by phonon," he says. Quantum computing (SN: 11/20/99, p. 334) may also benefit from the methods, Schwab adds. [GRAPH OMITTED] |
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