Physical Foundations of Solid-State Devices

Physical Foundations of Solid-State Devices
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275
By:"E. Fred Schubert"
"Technology & Engineering"
Published on 2015-03-10 by E. Fred Schubert

Foundations. of. \u003cb\u003eSolid\u003c/b\u003e-\u003cb\u003eState\u003c/b\u003e. \u003cb\u003eDevices\u003c/b\u003e. E. F. Schubert Rensselaer Polytechnic \u003cbr\u003e\nInstitute, Troy NY, USA It is beneficial for technical ... and photonics with an \u003cbr\u003e\neducational background in \u003cb\u003eElectrical Engineering\u003c/b\u003e, Applied Physics, or Materials \u003cbr\u003e\nScience.

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It is beneficial for technical personnel working in the field of microelectronic, optoelectronic, and photonic semiconductor devices to get a good understanding of the physical foundations ofmodern semiconductor devices. Questions that technical personnel may ask are: How areelectrons propagating in the periodic potential of a semiconductor crystal lattice? What are thefoundations of semiconductor heterostructure devices? How does quantum mechanics relateto semiconductor heterostructure devices? This book tries to answer questions such as these. The book provides a basis for the understanding of modern semiconductor devices that havedimensions in the nanometer range, i.e. comparable to the electron de Broglie wavelength. Classical and semi-classical physics no longer gives a full description of a number of physicalprocesses. The inclusion of quantum mechanical principles becomes mandatory and provides a useful description of many physical processes in electronic, optoelectronic, and photonic heterostructure devices. The first part of the book (Chapters 1 – 11) teaches quantum-mechanical principles, including the postulates of quantum mechanics, operators, the uncertainty principle, the Schrödinger equation, non-periodic and periodic potentials, quantum wells, and perturbation theory. The second part of the book (Chapters 12 – 20) applies these principles to semiconductor devices and discusses the density of states, semiconductor statistics, carrier concentrations, doping, tunneling, and some aspects of heterostructure devices. The book may be of particular interest to individuals working in the fields of microelectronics, optoelectronics, and photonics with an educational background in Electrical Engineering, Applied Physics, or Materials Science.

This Book was ranked 35 by Google Books for keyword Solid-State Devices on Electrical Engineering.

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