Xerox researchers develop breakthrough technology to bring benefits of fiber optics to small businesses, homes.Although the information superhighway is here, the "off-ramps" are more like one-lane dirt roads because of the high cost of routing fiber optic networks that last mile. However, a new technology from Xerox Corporation (company) XEROX Corporation - http://xerox.com/. See also XEROX PARC, XEROX Network Services. (NYSE NYSE See: New York Stock Exchange :XRX XRX Xerox Corporation (stock symbol) ) could help change that, by assisting the effort to bring affordable, high-capacity fiber optics fiber optics, transmission of digitized messages or information by light pulses along hair-thin glass fibers. Each fiber is surrounded by a cladding having a high index of refractance so that the light is internally reflected and travels the length of the fiber directly to businesses and even homes for the first time. The technology breaks the bandwidth barrier that exists today by integrating an Optical MEMS (MicroElectroMechanical Systems) Tiny mechanical devices that are built onto semiconductor chips and are measured in micrometers. In the research labs since the 1980s, MEMS devices began to materialize as commercial products in the mid-1990s. (Micro Electro-Mechanical Systems) photonic switch with planar light circuits on a single silicon chip small enough to fit on a fingertip--a first ever achievement. The new switch promises to provide rapid delivery of optical services by providing the functionality of a Reconfigurable Optical Add/Drop Multiplexer (R-OADM R-OADM Reconfigurable-Optical Add/Drop Multiplexer ), a routing device that's commonly used today but is 10 to 100 times as large and costly. "Optical networks based on our technology could go way beyond delivering on-demand DVD-quality videos in homes," said Joel Kubby, a technical manager at Xerox's Wilson Center for Research and Technology in Webster, N.Y. "Our switch could help usher in a new era of undreamed-of Internet applications, changing the way we do business, seek information and find entertainment." Today's optical networking equipment must switch from the optical to the electronic domain. Xerox's technology enables switching in the all-optical domain. Because it controls the flow of light rather than the flow of electrons, it is ultimately faster, smaller and cheaper. "With the Xerox switch, an entire R-OADM can be compressed into 2 cm x 1.5 cm in size, and can direct enormous amounts of data in ways that currently require large racks of assembled equipment," Kubby said. "Our technology would let telecommunications companies install systems locally and even on utility poles." "Waveguides" are very small conductors of light, about 5 to 6 microns or 1/10 the thickness of a human hair. The Xerox MEMS waveguide waveguide, device that controls the propagation of an electromagnetic wave so that the wave is forced to follow a path defined by the physical structure of the guide. shuttle acts like a miniature train track switch for the fine waveguides, avoiding the problems of earlier, mirror-based MEMS switches. The MEMS switches and waveguides are made together on a single crystal silicon wafer using widely available semiconductor processing equipment. Such on-chip integration avoids the complex alignment issues associated with manually connecting different and larger components with optical fibers, and avoids the cost and space associated with manufacturing, assembling and packaging the separate components of Add/Drop Multiplexers. In addition, the new technology eliminates the need for technicians to make routing changes in the field, ultimately bringing bandwidth to consumers faster. Kubby created a working prototype 8-channel reconfigurable OADM OADM Optical (WDM) Add-Drop Multiplexer OADM Optical Add Drop Multiplexer . Xerox intends to commercialize this technology through licensing to leading companies in the optical switching market. "Global consumption of OADMs was $101 million in 2001 and will surge to $1.03 billion in 2006," according to Jeff D. Montgomery, chairman and founder of market research firm ElectroniCast Corp. "The most rapid growth is expected in fully reconfigurable devices." The new optical switch technology builds on a broadly enabling MEMS fabrication fabrication (fab´rikā´sh  n),n the construction or making of a restoration. platform developed under a grant provided by 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. in its Advanced Technology Program. Xerox is the lead partner in the Optical MEMS Manufacturing Consortium, and Kubby is the principal investigator for the consortium's project. Other partners include Palo Alto Research Center Palo Alto Research Center - XEROX PARC , a subsidiary of Xerox; Corning IntelliSense, a MEMS foundry and software company; Microscan, a data acquisition firm; and Coventor, a MEMS software company. They are tasked with developing a manufacturing process for Optical MEMS, which can be used broadly. "Taking advantage of our MEMS knowledge to create breakthrough technology for telecommunications and other industries is an outgrowth of our core MEMS research for internal Xerox applications in digital printing," said Kubby. At Xerox, Kubby and his team began conducting MEMS research in 1993, Optical MEMS in 1998. Using Optical MEMS, Xerox is working to improve color image quality during the color reproduction process. Optical MEMS devices could eventually eliminate the need for high-cost precision manufacturing of components that stabilize movement in Xerox photoreceptor photoreceptor /pho·to·re·cep·tor/ (-re-sep´ter) a nerve end-organ or receptor sensitive to light. pho·to·re·cep·tor n. belts. |
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