Experiment upends normal frequency shift.The pitch of a blaring car horn rises as the vehicle approaches and falls as it moves away. That's the Doppler effect Doppler effect, change in the wavelength (or frequency) of energy in the form of waves, e.g., sound or light, as a result of motion of either the source or the receiver of the waves; the effect is named for the Austrian scientist Christian Doppler, who demonstrated , and it also occurs for 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 , enabling police to catch speeders with radar guns and astronomers to determine distances to stars. Now, physicists in England have demonstrated a topsy-turvy Doppler shift See Doppler effect. in which a radio wave's frequency rises as the source recedes. This inverse Doppler effect While the usual Doppler effect means that the frequency increases if the observer approaches the source - and decreases as they move away from each other - the theorists have speculated, since 1943, about the possibility that these rules may be interchanged. , first predicted in the 1940s, produces a frequency boost some 100,000 times greater than the drops of ordinary Doppler shifts, the researchers report in the Nov. 28 Science. The large shift may make inverse Doppler useful for pushing radiation sources to yield frequencies that are now difficult to attain. One such hard-to-reach frequency range is terahertz radiation For other uses of "T-ray", see T-ray (disambiguation). Electromagnetic waves sent at terahertz frequencies, known as terahertz radiation, terahertz waves, terahertz light, T-rays, T-light, T-lux and THz , which oscillates at trillions of cycles per second. It shows promise for medical imaging, security scanning, and many other applications (SN: 8/26/95, p. 136). In the newly reported experiment, Nigel Seddon and Trevor Bearpark of BAE Systems BAE Systems British manufacturer of aircraft, missiles, avionics, naval vessels, and other aerospace and defense products. BAE Systems was formed (1999) from the merger of British Aerospace (BAe) with Marconi Electronic Systems. , an aerospace and defense firm in Bristol, generated the Doppler reversal by following a strategy devised recently by Russian theorists. At the heart of the scheme is a half-meter-long assembly of capacitors and electrical inductors into which the BAE team drives a brief, potent pulse of some 100 amperes of current. Whizzing along this transmission pathway at up to a tenth the speed of light, the powerful pulse creates all the needed inversion conditions, says Seddon. To start with, the pulse alters the properties of each section of the pathway so that it exhibits what's known as anomalous dispersion. Normally, the directions of waves and their energy match. However, in the altered sections of the new transmission pathway, the energy carried by electrical waves travels in the opposite direction of the waves themselves. Electromagnetic radiation can reflect from the sharp, moving boundary between anomalous regions and normal ones. Besides creating anomalous dispersion, the pulse, like a boat churning up a wave with its bow, sheds an even-faster-moving radio wave that heads off in the direction opposite to that of the pulse. When that bow wave A bow wave is the wave that forms at the bow of a boat when it moves through the water. As the bow wave spreads out, it defines the outer limits of a boat's wake. The size of the bow wave is a function of the speed of the boat, ocean waves, ocean depth, and the shape of the bow. hits the start of the transmission line, it bounces back, catches up to the mobile boundary, and gets reflected again there. That's when the inverse Doppler effect kicks in. Reflecting off a receding boundary, an ordinary electromagnetic wave would Doppler-shift downward by a minute fraction of its frequency. However, with anomalous dispersion, the bow wave's frequency jumps a whopping 20 percent of the original frequency. That's because of the boundary's tremendous speed, Seddon says. "Within the context of everyday experience, [this inverted inverted reverse in position, direction or order. inverted L block a pattern of local filtration anesthesia commonly used in laparotomy in the ox. effect] is certainly very unnatural," comments theorist Evan J. Reed of the Massachusetts Institute of Technology Massachusetts Institute of Technology, at Cambridge; coeducational; chartered 1861, opened 1865 in Boston, moved 1916. It has long been recognized as an outstanding technological institute and its Sloan School of Management has notable programs in business, . However, inverted Doppler may soon be seen beyond electrical systems. Last Sepember, Reed and his colleagues unveiled a theoretical analysis showing that the reversal should be possible in light-manipulating materials, including photonic crystals SN: 5/3/03, p. 276). |
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