Tiny timepiece: atomic clock could fit almost anywhere.Physicists have shrunk the high-tech heart of an atomic clock to the size of a rice grain. This dramatic miniaturization min·i·a·tur·ize tr.v. min·i·a·tur·ized, min·i·a·tur·iz·ing, min·i·a·tur·iz·es To plan or make on a greatly reduced scale. min may lead to widespread use of atomic clocks in battery-powered devices such as global positioning system Global Positioning System: see navigation satellite. Global Positioning System (GPS) Precise satellite-based navigation and location system originally developed for U.S. military use. (GPS) receivers, wireless computers, and cell phones, says John Kitching, leader of the National Institute of Standards and Technology National Institute of Standards and Technology, governmental agency within the U.S. Dept. of Commerce with the mission of "working with industry to develop and apply technology, measurements, and standards" in the national interest. (NIST (National Institute of Standards & Technology, Washington, DC, www.nist.gov) The standards-defining agency of the U.S. government, formerly the National Bureau of Standards. It is one of three agencies that fall under the Technology Administration (www.technology. ) team in Boulder, Colo., that created the minuscule prototype. The itsy device includes a transparent chamber containing a vapor of cesium atoms, a laser, a photodetector A device that senses light. It uses the principle of photoconductivity, which is exhibited in certain materials that change their electrical conductivity when exposed to light. See photoelectric, photocell and photodiode. , heaters, and optical lenses and filters--all in a package small enough to fit on a microchip. Kitching and his colleagues describe the gadget in the Aug. 30 Applied Physics Letters Applied Physics Letters is a weekly peer-reviewed scientific journal published by the American Institute of Physics devoted to the publication of new experimental and theoretical papers about applications of physics to science, engineering, and modern technology. . "This is an important demonstration of a critical component for use in a chip-scale atomic clock," comments Christopher R. Ekstrom of the U.S. Naval Observatory in Washington, D.C. Many portable electronic items already contain on-chip clocks regulated by oscillations oscillations See Cortical oscillations. of quartz crystals. However, the frequencies of those oscillations vary much more over time and with temperature fluctuations than do frequencies of atomic clocks. Military planners foresee a boon from developing atomic replacements for quartz timekeepers. For instance atomic clock-based GPS receivers would be less vulnerable than existing models to barrages of radio waves that enemies use to jam navigation instruments. Although civilian payoffs are less obvious, better synchronization between networked computers and helping prevent eavesdropping on cell phone conversations might create markets for the diminutive atomic clocks, says Kitching. The NIST team built its prototype with funding from the Defense Advanced Research Projects Agency Defense Advanced Research Projects Agency (DARPA), U.S. government agency administered by the Department of Defense (see Defense, United States Department of). (DARPA DARPA: see Defense Advanced Research Projects Agency. (Defense Advanced Research Projects Agency) The name given to the U.S. Advanced Research Projects Agency during the 1980s. It was later renamed back to ARPA. ). The organization is pushing the development of tiny atomic cloaks that could be cheaply mass-produced using techniques akin to those employed by makers of microelectronics. Several DARPA-supported teams, including Kitching's, are pursuing the goal of building a sugar-cube-size atomic clock that could run off the power equivalent of a single AA battery. Today's smallest atomic clock takes up as much space as a cigarette pack and can't run on battery power (SN: 9/9/95, p. 175). So far, the NIST team has built, on a lilliputian scale, the part of an atomic clock that accepts a high-frequency oscillation from another part of the clock and compares it to a natural electromagnetic frequency of atoms of a specific element. A full clock requires two additional pieces: the oscillator and the control electronics. While the NIST package is petite enough, it remains too power hungry. It's also a long way from the DARPA timekeeping goal of erring by less than 1 microsecond per day. Still, the NIST team has "put together something that shows feasibility. That's very commendable," comments physicist R. Michael Garvey of Symmetricom. That Beverly, Mass.-based atomic clock maker is part of a DARPA-funded team competing with the NIST group. |
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