The Physical Basis of Electronics
The Physical Basis of Electronics

Author: D. J. Harris

Publisher: Elsevier

Published: 2013-10-22

Total Pages: 279

ISBN-13: 1483156540

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The Physical Basis of Electronics: An Introductory Course, Second Edition is an 11-chapter text that discusses the physical concepts of electronic devices. This edition deals with the considerable advances in electronic techniques, from the introduction of field effect transistors to the development of integrated circuits. The opening chapters discuss the fundamentals of vacuum electronics and solid-state electronics. The subsequent chapters deal with the other components of electronic devices and their functions, including semiconductor diode and transistor as an amplifier and a switch. The discussion then shifts to several types of field-effect transistor and the production of p-n junctions, transistors, and integrated circuits. A chapter highlights the four classifications of thermionic valves commonly used in electronic devices, namely, diodes, triodes, tetrodes, and pentodes. This chapter also considers the effect of small gas introduced to the characteristics of these valves. The concluding chapters discuss some of the basic modes of operation of electronic circuits and cathode-ray tube. This edition is of great value to undergraduate electronics students.

Electronics
Electronics

Author: David Snoke

Publisher: Addison-Wesley

Published: 2014-09-30

Total Pages: 0

ISBN-13: 9780321551337

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The Physical Foundations of Electronics For undergraduate physics courses, assuming some exposure to electrodynamics. Electronics: A Physical Approach de-mystifies electronics by filling the gap between physical principles and pragmatic circuit design. The authors introduce students to the physics behind the electronics, rather than presenting various tips on circuit building. As a result, students develop an intuition about how devices actually work by building a strong conceptual foundation.

Semiconductor Physical Electronics
Semiconductor Physical Electronics

Author: Sheng S. Li

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 514

ISBN-13: 146130489X

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The purpose of this book is to provide the reader with a self-contained treatment of fundamen tal solid state and semiconductor device physics. The material presented in the text is based upon the lecture notes of a one-year graduate course sequence taught by this author for many years in the ·Department of Electrical Engineering of the University of Florida. It is intended as an introductory textbook for graduate students in electrical engineering. However, many students from other disciplines and backgrounds such as chemical engineering, materials science, and physics have also taken this course sequence, and will be interested in the material presented herein. This book may also serve as a general reference for device engineers in the semiconductor industry. The present volume covers a wide variety of topics on basic solid state physics and physical principles of various semiconductor devices. The main subjects covered include crystal structures, lattice dynamics, semiconductor statistics, energy band theory, excess carrier phenomena and recombination mechanisms, carrier transport and scattering mechanisms, optical properties, photoelectric effects, metal-semiconductor devices, the p--n junction diode, bipolar junction transistor, MOS devices, photonic devices, quantum effect devices, and high speed III-V semiconductor devices. The text presents a unified and balanced treatment of the physics of semiconductor materials and devices. It is intended to provide physicists and mat erials scientists with more device backgrounds, and device engineers with a broader knowledge of fundamental solid state physics.

Electronic Structure
Electronic Structure

Author: Richard M. Martin

Publisher: Cambridge University Press

Published: 2004-04-08

Total Pages: 658

ISBN-13: 9780521782852

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An important graduate textbook in condensed matter physics by highly regarded physicist.

Semiconductor Physics and Devices
Semiconductor Physics and Devices

Author: Donald A. Neamen

Publisher:

Published: 2003

Total Pages: 746

ISBN-13: 9780071198622

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This text aims to provide the fundamentals necessary to understand semiconductor device characteristics, operations and limitations. Quantum mechanics and quantum theory are explored, and this background helps give students a deeper understanding of the essentials of physics and semiconductors.

Physical Foundations Of Quantum Electronics By David Klyshko
Physical Foundations Of Quantum Electronics By David Klyshko

Author: Maria Chekhova

Publisher: World Scientific

Published: 2011-04-21

Total Pages: 368

ISBN-13: 9814462896

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This concise textbook introduces a graduate student to the various fields of physics related to the interaction between radiation and matter. The scope of the book is very broad, ranging from nonlinear to quantum optics and from quantum transitions in atoms to the dispersion of polaritons in continuous media.The author, Professor David Klyshko (1929-2000), is one of the founders of modern quantum optics, renowned for his theory of Spontaneous Parametric Down-Conversion (SPDC) and its applications in quantum metrology and the optics of nonclassical light.Most parts of the book contain the lecture courses taught by David Klyshko at Moscow State University, namely, quantum electronics, nonlinear optics and quantum optics. In every section, the main focus is on observable effects and their physical interpretation. The book emphasizes analogies and relations between seemingly different phenomena and different fields of quantum electronics.Additional commentaries written by Profs. Maria Chekhova and Sergey Kulik analyze more recent developments in the corresponding fields of physics.

The Physics of Computing
The Physics of Computing

Author: Marilyn Wolf

Publisher: Elsevier

Published: 2016-10-16

Total Pages: 278

ISBN-13: 0128096160

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The Physics of Computing gives a foundational view of the physical principles underlying computers. Performance, power, thermal behavior, and reliability are all harder and harder to achieve as transistors shrink to nanometer scales. This book describes the physics of computing at all levels of abstraction from single gates to complete computer systems. It can be used as a course for juniors or seniors in computer engineering and electrical engineering, and can also be used to teach students in other scientific disciplines important concepts in computing. For electrical engineering, the book provides the fundamentals of computing that link core concepts to computing. For computer science, it provides foundations of key challenges such as power consumption, performance, and thermal. The book can also be used as a technical reference by professionals. - Links fundamental physics to the key challenges in computer design, including memory wall, power wall, reliability - Provides all of the background necessary to understand the physical underpinnings of key computing concepts - Covers all the major physical phenomena in computing from transistors to systems, including logic, interconnect, memory, clocking, I/O

Basic Electronics for Scientists and Engineers
Basic Electronics for Scientists and Engineers

Author: Dennis L. Eggleston

Publisher: Cambridge University Press

Published: 2011-04-28

Total Pages: 267

ISBN-13: 1139500562

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Ideal for a one-semester course, this concise textbook covers basic electronics for undergraduate students in science and engineering. Beginning with the basics of general circuit laws and resistor circuits to ease students into the subject, the textbook then covers a wide range of topics, from passive circuits through to semiconductor-based analog circuits and basic digital circuits. Using a balance of thorough analysis and insight, readers are shown how to work with electronic circuits and apply the techniques they have learnt. The textbook's structure makes it useful as a self-study introduction to the subject. All mathematics is kept to a suitable level, and there are several exercises throughout the book. Password-protected solutions for instructors, together with eight laboratory exercises that parallel the text, are available online at www.cambridge.org/Eggleston.