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Identifies currently unmet measurement needs most critical for the U.S. electronics industry to compete successfully worldwide. Includes: role of measurements in competitiveness, & overview of U.S. electronics & electrical-equipment industries. Nine subfields of electronics are covered: semiconductors, magnetics, superconductors, microwaves, lasers, optical-fiber communications, optical-fiber sensors, video, & electromagnetic compatibility. Extensive references. Charts, tables & graphs.
This Workshop gathered engineers and scientists to discuss their recent research and issues related to photonic networks and their topologies, the enabling devices and applications these networks support. Optical communication, neural, sensor and computer networks were considered. Another part of the workshop was devoted to network components based on optical fibre, semiconductor and organic materials such as lasers, amplifiers and detectors, integrated optic and optoelectronic circuits. Applications in communications, optical sensing and signal processing were addressed, with particular emphasis on avionics, submarine, space as well as office, residential, medical and specialized (captive) services.
A revolutionary technological development of the late twentieth century, photonics embraces lasers, fiber optics, imaging devices, and optical applications to computing. It affects the fortunes of numerous industries and, other than conventional microelectronics, may now be the leading arena for worldwide technological rivalry. While Japan has seen its photonic industries grow faster than any other high technology sector, the United States, where much of photonics originated, has experienced a declining industrial capability in world markets. Why is the U.S. floundering in this critical new technology? Are market solutions adequate as a national response to such massive technological change? After describing the history and economic implications of photonics, this book places these questions in the context of industrial policy debates about the proper role of government in response to strategic industrial sectors. The author then assesses the U.S. public policy response by examining various government programs directed at photonics. These programs add up to an implicit government photonics policy, but one that is shortsighted, incoherent, and unplanned. Sternberg concludes that it is this failure to plan that explains United States' retrogression in a critical technology.
Optoelectronics ranks one of the highest increasing rates among the different industrial branches. This activity is closely related to devices which are themselves extremely dependent on materials. Indeed, the history of optoelectronic devices has been following closely that of the materials. KLUWER Academic Publishers has thus rightly identified "Materials for Optoelectronics" as a good opportunity for a book in the series entitled "Electronic Materials; Science and Technology". Although a sound background in solid state physics is recommended, the authors have confined their contribution to a graduate student level, and tried to define any concept they use, to render the book as a whole as self-consistent as possible. In the first section the basic aspects are developed. Here, three chapters consider semiconductor materials for optoelectronics under various aspects. Prof. G. E. Stillman begins with an introduction to the field from the point of view of the optoelectronic market. Then he describes how III-V materials, especially the Multi Quantum Structures meet the requirements of optoelectronic functions, including the support of microelectronics for optoelectronic integrated circuits. In chapter 2, Prof.
Global electro-optic technology and markets.