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This book includes within its scope studies of the structural, electrical, optical and acoustical properties of bulk, low-dimensional and amorphous semiconductors; computational semiconductor physics; interface properties, including the physics and chemistry of heterojunctions, metal-semiconductor and insulator-semiconductor junctions; all multi-layered structures involving semiconductor components. Dopant incorporation. Growth and preparation of materials, including both epitaxial (e.g. molecular beam and chemical vapour methods) and bulk techniques; in situ monitoring of epitaxial growth processes, also included are appropriate aspects of surface science such as the influence of growth kinetics and chemical processing on layer and device properties. The physics of semiconductor electronic and optoelectronic devices are examined , including theoretical modelling and experimental demonstration; all aspects of the technology of semiconductor device and circuit fabrication. Relevant areas of 'molecular electronics' and semiconductor structures incorporating Langmuir-Blodgett films; resists, lithography and metallisation where they are concerned with the definition of small geometry structure. The structural, electrical and optical characterisation of materials and device structures are also included. The scope encompasses materials and device reliability: reliability evaluation of technologies; failure analysis and advanced analysis techniques such as SEM, E-beam, optical emission microscopy, acoustic microscopy techniques; liquid crystal techniques; noise measurement, reliability prediction and simulation; reliability indicators; failure mechanisms, including charge migration, trapping, oxide breakdown, hot carrier effects, electro-migration, stress migration; package- related failure mechanisms; effects of operational and environmental stresses on reliability.
High-performance electronics are key to the U.S. Air Force's (USAF's) ability to deliver lethal effects at the time and location of their choosing. Additionally, these electronic systems must be able to withstand not only the rigors of the battlefield but be able to perform the needed mission while under cyber and electronic warfare (EW) attack. This requires a high degree of assurance that they are both physically reliable and resistant to adversary actions throughout their life cycle from design to sustainment. In 2016, the National Academies of Sciences, Engineering, and Medicine convened a workshop titled Optimizing the Air Force Acquisition Strategy of Secure and Reliable Electronic Components, and released a summary of the workshop. This publication serves as a follow-on to provide recommendations to the USAF acquisition community.
Based on the deliberations of a high-level international conference, this report summarizes the presentations of an exceptional group of experts, convened by Intel's Chairman Emeritus Gordon Moore and SEMATECH's Chairman Emeritus William Spencer. The report documents the critical technological challenges facing this key industry and the rapid growth in government-industry partnerships overseas to support centers of semiconductor research and production in national economies. Importantly, the report provides a series of recommendations designed to strengthen U.S. research in disciplines supporting the continued growth of semiconductor industry, an industry which has made major contributions to the remarkable increases in productivity in the U.S. economy.
The advent of the digital economy has the potential to dramatically change the conventional interrelationships among individuals, enterprises and society. There can be little doubt that to achieve vigorous socioeconomic developments in the 21st century, people will have to aggressively use information technology to boost innovation and to organically link the results of that innovation to solutions to global environmental issues and social challenges such as the opportunity divide. We are responsible for taking advantage of the opportunities opened up by the digital economy and for turning those opportunities into things that reflect our values and goals. The book examines the overall impact of the digital economy and the development of a practical institutional design.
This book presents the author's view of how the global semiconductor industry will evolve, based on recent megatrends not only in the industry but also in society, including the rapid proliferation of AI, the global semiconductor shortage, the rising importance of semiconductors in the value chain, and the movement to democratize semiconductors. It describes and explains major transformations taking place in the industry as a result, which necessitate significant changes not only to its technology but also its economic model and industrial structure. Finally, the book elaborates on the author's theory of super-evolution of semiconductors that will lead to the success of the industry in the emerging knowledge-based digital society. This book is a translation of an original German edition. The translation was done with the help of artificial intelligence (machine translation by the service DeepL.com).
The Cavendish Laboratory is arguably the most famous physics laboratory in the world. Founded in 1874, it rapidly gained a leading international reputation through the researches of the Cavendish professors beginning with Maxwell, Rayleigh, J. J. Thomson, Rutherford and Bragg. Its name will always be associated with the discoveries of the electron, the neutron, the structure of the DNA molecule and pulsars, but these are simply the tip of the iceberg of outstanding science. The physics carried out in the laboratory is the central theme of the book and this is explained in reasonably non-technical terms. The research activities are set in their international context. Generously illustrated, with many pictures of the apparatus used and diagrams from the original papers, the story is brought right up to date with descriptions of the science carried out under the leadership of the very different personalities of Mott, Pippard and Edwards.
The semiconductor industry is at the forefront of current tensions over international trade and investment in high technology industries. This book traces the struggle between U.S. and Japanese semiconductor producers from its origins in the 1950s to the novel experiment with "managed trade" embodied in the U.S.-Japan Semiconductor Trade Arrangements of 1986, and the current debate over continuation of elements of that agreement. Flamm provides a thorough analysis of this experiment and its consequences for U.S. semiconductor producers and users, and presents extensive discussion of patterns of competition within the semiconductor industry. Using a wealth of new data, he argues that a fundamentally new trade regime for high technology industries is needed to escape from the present impasse. He lays out the alternatives, from laissez-faire to managed trade, and argues strongly for a new set of international ground rules to regulate acceptable behavior by government and firms in high-tech industries. Flamm's detailed analysis of competition within the semiconductor industry will be of great value to those interested in the industrial organization of high-technology industries, as well as those concerned with trade and technology policy, international competition, and Japanese industrial policies.
Some vols. include supplemental journals of "such proceedings of the sessions, as, during the time they were depending, were ordered to be kept secret, and respecting which the injunction of secrecy was afterwards taken off by the order of the House."