Tinier transistors for tomorrow's chips.In semiconductor manufacturing, fabricating smaller transistors and placing them closer together on a silicon integrated-circuit chip translates into faster computers. Today's advanced microprocessor chip has wires and surface features no thinner than 0.35 micrometer micrometer (mīkrŏm`ətər, mī`krōmē'tər). 1 Instrument used for measuring extremely small distances. . To reach the high levels of performance that many researchers and others would like to see in future computers, manufacturers must develop technologies that significantly decrease that thickness. The announcement last week of the formation of a private industry consortium called the Extreme Ultraviolet Limited Liability Company marked the launch of a major project aimed at developing the technology needed to etch circuit lines less than 0.10 [micro]m wide. In this effort, Intel Corp., Advanced Micro Devices, and Motorola have joined forces with the Lawrence Livermore Lawrence Livermore may refer to:
VNL Virtual National Laboratory VNL Video Networks Limited ). The industry group will provide $250 million to VNL over the next 3 years to develop extreme ultraviolet lithography Extreme Ultraviolet Lithography (also known as EUV or EUVL) is a next-generation lithography technology using the 13.5 nm wavelength. EUV is a significant departure from the deep ultraviolet lithography used today. All matter absorbs EUV radiation. for commercial manufacturing of computer chips. A crucial part of semiconductor manufacturing involves an essentially photographic process of printing patterns to guide which parts of a silicon surface must be etched away. The industry co group is betting that the use of 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 at a wavelength of 13 nanometers, pioneered at Sandia, can be successfully put into an industrial setting. Other groups have been working on approaches involving X-ray or electron-beam lithography. At this stage, however, Intel believes that extreme ultraviolet technology offers the greatest promise for commercial application, says spokes man Adam Grossberg. |
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