Potent laser twirls electron figure eights.During the past decade, experimenters have developed laser beams of unprecedented power. Like other forms of light, these beams are composed of perpendicular electric and 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. . The laser beams' enormously strong electric fields tear electrons from atoms and accelerate the freed particles almost instantly to nearly the speed of light. Made more intense each year, compact lasers have promised to unlock new areas of physics and usher in Verb 1. usher in - be a precursor of; "The fall of the Berlin Wall ushered in the post-Cold War period" inaugurate, introduce commence, lead off, start, begin - set in motion, cause to start; "The U.S. practical advances such as X-ray lasers and tabletop particle accelerators (SN: 9/5/98, p. 157). In a partial fulfillment of that promise, researchers at the University of Michigan (body, education) University of Michigan - A large cosmopolitan university in the Midwest USA. Over 50000 students are enrolled at the University of Michigan's three campuses. The students come from 50 states and over 100 foreign countries. in Ann Arbor Ann Arbor, city (1990 pop. 109,592), seat of Washtenaw co., S Mich., on the Huron River; inc. 1851. It is a research and educational center, with a large number of government and industrial research and development firms, many in high-technology fields such as report a laser experiment confirming a 30-year-old prediction based on Einstein's theory of relativity theory of relativity Einstein’s contribution to the space-time relationship. [Science: NCE, 843–844] See : Turning Point . The Michigan findings indicate that high-power, short-pulse lasers have reached sufficient intensities for "opening up a whole new regime" of physics, says Nicolaas Bloembergen Nicolaas Bloembergen (born Dordrecht, March 11, 1920) is an Dutch-born American physicist. He received his Ph.D. from University of Leiden and Harvard in 1948. He became a professor at Harvard University. of Harvard University, who shared the 1981 Nobel Prize in Physics The Nobel Prize in Physics (Swedish: Nobelpriset i fysik) is awarded once a year by the Royal Swedish Academy of Sciences. It is one of the six Nobel Prizes. The first prize was awarded in 1901. for pioneering studies using lasers to probe atoms. As described in the Dec. 17 NATURE, Michigan researchers Szu-yuan Chen, Anatoly Maksimchuk, and Donald Umstadter fired 4-trillion-watt laser bursts lasting less than a half-trillionth second. The bursts tore their target, helium gas, into a plasma of electrons and ions. Theorists predicted in the 1960s that a laser's magnetic field, which has no effect on low-speed electrons, would exert a force on the fast-moving electrons accelerated by the laser electric field. Because the magnetic field pushes perpendicularly to the electric field, the oscillating os·cil·late intr.v. os·cil·lat·ed, os·cil·lat·ing, os·cil·lates 1. To swing back and forth with a steady, uninterrupted rhythm. 2. fields would force the particles into minuscule figure eights. Electrons on that swooping trajectory would re-emit light at the frequency of the laser itself but also, more importantly, at harmonics of the laser's frequency. The Michigan team reports that they detected those telltale harmonics. Moreover, a digital camera showed that the emissions emerged in a cloverleaf pattern, as predicted. "The figure eight [motion] is inferred from this pattern," Umstadter says. As multiples of the laser-light frequency, the harmonics represent higher energies. Even more energetic harmonics in the X-ray range may be possible. The Michigan researchers are planning new experiments to reach those frequencies. Toshiki Tajima of Lawrence Livermore (Calif.) National Laboratory agrees that the recent experiment buoys hopes for "a new way to generate bright X rays in a very compact and, perhaps, very cheap way." Umstadter says the new results also have implications for laser-driven nuclear fusion and laboratory tests of astrophysical as·tro·phys·ics n. (used with a sing. verb) The branch of astronomy that deals with the physics of stellar phenomena. as phenomena. Eric J. Prebys of Princeton University says that the new work confirms earlier experiments that also demonstrated that electrons can be propelled to near-light speeds by laser electric fields. Umstadter, however, claims that his group is the first to see unequivocally the instantaneous magnetic effect. |
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