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Electronic Excited‐State Engineering
ChemPhysChem, 2008Long-living complexes: A CuI- bisphenanthroline complex exhibits a 15-fold prolongation of its excited state lifetime due to the planned intervention of an appended anthracene fragment (see picture). This elegant example of electronic excited-state engineering extends the range of possibilities for improving the photophysical properties of CuI ...
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Trends in Electronic Engineering
Transactions of the American Institute of Electrical Engineers, 1948The field of electronics may be divided into three segments: entertainment and education, communications, and industrial applications. Developments since the war in each of these areas of activity have been notable, but of particular interest is the rapid progress which has been made in the largest division of the field, broadcasting, and emphasis is ...
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Modern Electronics for Geotechnical Engineers
Geotechnical Testing Journal, 1980Abstract The fundamental principles of microprocessors are described. Emphasis is placed on process control and data acquisition uses. The pinout and architecture of the CDP1802 are detailed.
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Electronics for ocean engineering
1966 International Electron Devices Meeting, 1966The characteristics of the ocean which influence the design of electronics devices are temperature, pressure, salinity or conductivity. Problems created by these characteristics can be overcome in a variety of ways. These and many of the other parameters of the oceans are measured to enhance the oceanographer's understanding of the oceans, their ...
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Information engineering and electronics
Electronics and Power, 1979Information is wispy elusive stuff, although that has never prevented engineers from setting about handling it; indeed, it gave rise to one of the first applications of electricity, and the IEE began as `The Society of Telegraph Engineers?. Today, after years of tranquil obsolescence, telegraph engineering has returned to fashion as everyone, reading ...
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Engineering the future of electronics
Physics World, 1992The development of epitaxial growth techniques, such as molecular beam epitaxy and special kinds of chemical vapour phase epitaxy, allows us to control the growth of individual semiconductor layers on an atomic scale. These achievements provide a strong basis for designing semiconductor materials with tailored band structures and, consequently ...
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Electronics and Automotive Engineering
SAE Technical Paper Series, 1974A discussion of the automotive industry's reluctance to implement new electronics applications, this paper examines the basis on which design engineers accept or reject automotive electronics designs. Unless these new designs demonstrate economic or other advantages over designs emanating from traditional technology, they will be rejected.
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The Future of Electronic Engineering
Proceedings of the IRE, 1946Engineering proceeds from the simplicity of its early days to the sometimes amazing complexity of its present practices. And important new branches of engineering spring into being to make their contributions to human welfare. There has thus arisen the significant and rapidly developing field of electronic engineering, the future of which is here ...
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Electronics and the traffic engineer
IEEE Spectrum, 1967As vehicular traffic increases both in density and complexity, particularly in urban areas, effective control systems to minimize delays become more and more essential. The traffic engineer's problem is twofold: to optimize existing facilities and to plan new ones.
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Transients in Electronic Engineering
Physics Bulletin, 1972E E Zepler and K G Nichols London: Chapman and Hall 1971 pp ix + 358 price £7 This is an excellent book, thorough and careful in its approach. An introductory chapter on classical, differential equation, techniques of transient analysis is followed by descriptions of the Laplace transform, Fourier methods, and contour integration; more complex circuits
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