Items related to Semiconductor Physics: An Introduction (Springer Series...
Synopsis
Televisions, telephones, watches, calculators, robots, airplanes and space vehicles all depend on silicon chips. Life as we know it would hardly be possible without semiconductor devices. An understanding of how these devices work requires a detailed knowledge of the physics of semiconductors, including charge transport and the emission and absorption of electromagnetic waves. This book may serve both as a university textbook and as a reference for research and microelectronics engineering. Each section of the book begins with a description of an experiment. The theory is then developed as far as necessary to understand the experimental results. Everyone with high-school mathematics should be able to follow the calculations. A band structure calculation for the diamond lattice is supplemented with a personal computer program. Semiconductor physics developed most rapidly in the two decades following the invention of the transistor, and naturally most of the references date from this time. But recent developments such as the Gunn effect, the acoustoelectric effect, superlattices, quantum well structures, and the integral and fractional quantum Hall effect are also discussed. The book has appeared in translation in Russian, Chinese and Japanese.
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From the Back Cover
This well-established monograph, updated and now in its ninth edition, deals mainly with electron transport in, and optical properties of semiconductors. It includes lasers, e.g. the quantum cascade laser, quantum processes such as the quantum Hall effect, quantum dots, fullerenes, carbon nanotubes, molecular electronics, the nitrides, and many other recent discoveries in the field. New diagrams and tables provide a comprehensive source of materials data. Selected problems help readers to consolidate their knowledge and invite teachers to use this text for graduate courses on semiconductor physics, solid state physics, and physical electronics.
Review
From the reviews of the ninth edition:
"This book of K. Seeger is one of the mostly used source book in the field of semiconductor physics. ... it has become the reference book of many teachers, students and researchers, both in fundamental and applied solid state science. ... Altogether ... this book will undoubtedly continue to be very attractive as a reference book for teachers and researchers in the field of semiconductors." (Michel Wautelet, Physicalia Magazine, Vol. 28 (1), 2006)
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