Plastic glows with bright laser light.For 6 years, since they discovered it gives off light when electricity passes through it, scientists in Cambridge, England, have set their sights on a plastic called PPV Positive predictive value (PPV) The probability that a person with a positive test result has, or will get, the disease. Mentioned in: Genetic Testing PPV porcine parvovirus. PPV Positive-pressure ventilation . Now, the researchers have even higher hopes for the material. They have demonstrated that PPV can emit not just any light, but coherent laser light. PPV is one of a class of polymers that researchers are developing as light-emitting diodes (LEDs) for use in electronic displays (SN: 10/16/93, p. 246). Getting PPV to produce laser light proves that "it's extremely good for light emission, which was questioned in the scientific community," says Richard H. Friend of the Cavendish Laboratory Cavendish Laboratory: see Cambridge Univ. in Cambridge. That bodes well for polymer LEDs now in development. Friend and his colleagues Nir Tessler and Graham J. Denton report the work in the Aug. 22 Nature. To create the laser, the researchers sandwiched the PPV between two mirrors: a thin silver film and a layered material called a distributed Bragg reflector A distributed Bragg reflector (DBR) is a high quality reflector used in waveguides, such as optical fibers. It is a structure formed from multiple layers of alternating materials with varying refractive index, or by periodic variation of some characteristic (such as height) , which reflects visible light with almost 100 percent efficiency. Like any laser, this device produces light by a process called stimulated emission stimulated emission The emission of electromagnetic radiation in the form of photons of a given frequency, triggered by photons of the same frequency. . Shining light through the reflector reflector: see telescope. causes the PPV to emit photons, some of which are reflected back and forth between the mirrors, in turn triggering a cascade of more photons. The photons that are not reflected but pass through the silver film have a single wavelength and are in phase, forming the coherent laser beam. The light emitted was yellow-green, but polymer laser light could, in principle, cover a range of visible wavelengths, Friend says. Most commercial lasers emit in the red or infrared range. The next big goal is to develop polymer lasers that can be excited by electricity rather than light. Polymers can be easily deposited over large areas. How that quality can be exploited for lasers remains to be seen, but it's useful when making large, flat LED panels such as computer screens or billboards. With polymers, researchers "don't have to grow single crystals like for other semiconductors," says Alan J. Heeger Alan Jay Heeger (born January 22, 1936) is an American physicist, chemist, academic and Nobel Prize laureate in chemistry. Heeger was born in Sioux City, Iowa. He earned his Ph.D in Physics from UC Berkeley in 1961. , chief scientist at UNIAX Corp. in Santa Barbara Santa Barbara (săn'tə bär`brə, –bərə), city (1990 pop. 85,571), seat of Santa Barbara co., S Calif., on the Pacific Ocean; inc. 1850. , Calif. At the International Conference on Synthetic Metals earlier this month in Snowbird, Utah, Heeger and other UNIAX scientists and a group at the University of Utah The University of Utah (also The U or the U of U or the UU), located in Salt Lake City, is the flagship public research university in the state of Utah, and one of 10 institutions that make up the Utah System of Higher Education. in Salt Lake City reported independent evidence of laser-emitting polymers. "These materials look fantastic," Heeger says. "They will set the community looking in a new direction." |
|
||||||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion