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The book provides an overview of the fascinating spectrum of semiconductor physics, devices and applications, presented from a historical perspective. It covers the development of the subject from its inception in the early nineteenth century to the recent millennium. Written in a lively, informal style, it emphasizes the interaction between pure scientific push and commercial pull, on the one hand, and between basic physics, materials, and devices, on the other. It also sets thevarious device developments in the context of systems requirements and explains how such developments met wide ranging consumer demands. It is written so as to appeal to students at all levels in physics, electrical engineering, and materials science, to teachers, lecturers, and professionals workingin the field, as well as to a non-specialist scientific readership.
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Fanciful stories of rags-to-riches are fascinating. Yet, when such is part & parcel of one's ancestry, it becomes real. Having known physical hardship in the back-to-backs of Birmingham, great-grandfather Allden determined never to be poor again. An inherent ability in mental arithmetic was to play a major role in the family Commission Agent business; but did the gamble pay off? The Industrial Revolution is never far away in Birmingham & the Black Country, where the Alldens played their part in firing up and arming the nation. Jockeying around was also a major pastime and a money earner for the boys. Complex family relationships also set the scene when it was better to keep Mum; but lose her they did. A fun-loving Step-Mum & private education stepped in, but did the Alldens find their middle-class roots again. From whence did they hail & why had they fallen? Ancestry is but a game of Snakes & Ladders, so did the Alldens win in the end? Also, is there more of the Allden in the author than he cares to admit?
Semiconductors and the Information Revolution sets out to explain the development of modern electronic systems and devices from the viewpoint of the semiconductor materials (germanium, silicon, gallium arsenide and many others) which made them possible. It covers the scientific understanding of these materials and its intimate relationship with their technology and many applications. It began with Michael Faraday, took off in a big way with the invention of the transistor at Bell Labs in 1947 and is still burgeoning today. It is a story to match any artistic or engineering achievement of man and this is the first time it has been presented in a style suited to the non-specialist. It is writt...