Tiny tungsten beams lord over light. (Physics).Lattices of microscopic tungsten rods can act as heat shields, researchers have found. Such structures may dramatically boost the efficiency of incandescent light bulbs and of thermophotovoltaic devices, which convert radiated ra·di·ate v. ra·di·at·ed, ra·di·at·ing, ra·di·ates v.intr. 1. To send out rays or waves. 2. To issue or emerge in rays or waves: Heat radiated from the stove. heat into electricity, says research leader Shawn Yu Lin of the Sandia National Laboratories Sandia National Laboratories, which is managed and operated by the Sandia Corporation (a wholly owned subsidiary of Lockheed Martin Corporation), is a major United States Department of Energy research and development national laboratory with two locations, one in Albuquerque, New in Albuquerque, N.M. For about 15 years, scientists have been developing orderly microstructures called photonic crystals that block electromagnetic radiation electromagnetic radiation, energy radiated in the form of a wave as a result of the motion of electric charges. A moving charge gives rise to a magnetic field, and if the motion is changing (accelerated), then the magnetic field varies and in turn produces an within certain bands of wavelengths (SN: 1/26/02, p. 61). Expecting to use the crystals for room-temperature applications, such as circuits that would conduct photons instead of electrons, the developers haven't worded about creating devices that can withstand high temperatures. Knowing that photonic crystals could be useful in hot environments, Lin, Sandia colleague James G. Fleming, and their coworkers at the Ames (Iowa) Laboratory turned to a mesh of tungsten bars, each about 1 micrometer micrometer (mīkrŏm`ətər, mī`krōmē'tər). 1 Instrument used for measuring extremely small distances. thick. Tungsten's melting temperature Melting temperature may refer to:
Measurements of the new photonic crystal's properties show that it almost completely blocks radiated heat in the band of infrared wavelengths between 8 and 20 micrometers, the team reports in the May 2 Nature. Using a finer version of the tungsten mesh with thermophotovoltaic devices might improve their performance. For example, the mesh could filter the thermal radiation thermal radiation Process by which energy is emitted by a warm surface. The energy is electromagnetic radiation and so travels at the speed of light and does not require a medium to carry it. from a heat source so that only the optimal wavelengths reach the device. The researchers also found that the structure absorbs more light than expected at the 8-micrometer end of the band and transmits more light than expected at certain wavelengths below 8 [micro]m. This suggests, they say, that such a photonic crystal--if its features were miniaturized tenfold and it were used as the filament filament, in astronomy: see chromosphere. of a light bulb--might shift much of the bulb's infrared emissions into shorter, visible wavelengths. If so, Lin and his colleagues claim, the incandescent bulb's electricity-to-light conversion efficiency might leap from today's 5 percent to a whopping 60 percent.--P.W. |
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