Amazon cover image
Image from Amazon.com
Image from OpenLibrary

Physics of semiconductor devices.

By: Material type: Computer fileComputer filePublisher: New York : Springer, 2015Description: xxiii, 649 p. : il. ; 24 cmISBN:
  • 9781493911509
Subject(s):
Contents:
A review of analytical mechanics and electromagnetism. Analytical mechanics -- Coordinate transformations and invariance properties -- Applications of the concepts of analytical mechanics -- Electromagnetism --Applications of the concepts of electromagnetism. Introductory concepts to statistical and quantum mechanics. Classical distribution function and transport equation --From classical mechanics to quantum mechanics -- Time-independent Schrödinger equation -- Time-dependent Schrödinger equation -- General methods of quantum mechanics. Applications of the Schrödinger equation. Elementary case -- Cases related to the linear harmonic oscillator -- Other examples of the Schrödinger equation -- Time-dependent perturbation theory. Systems of interacting particles--Quantum statistics. Many-particle systems -- Separation of many-particle systems. Applications to semiconducting crystals. Periodic structures -- Electrons and holes in semiconductors at equilibrium. Transport phenomena in semiconductors. Mathematical model of semiconductor devices -- Generation-recombination and mobility. Basic semiconductor devices. Bipolar devices -- MOS devices. Miscellany. Thermal diffusion -- Thermal oxidation--Layer deposition -- Measuring the semiconductor parameters.
Tags from this library: No tags from this library for this title. Log in to add tags.

A review of analytical mechanics and electromagnetism. Analytical mechanics -- Coordinate transformations and invariance properties -- Applications of the concepts of analytical mechanics -- Electromagnetism --Applications of the concepts of electromagnetism. Introductory concepts to statistical and quantum mechanics. Classical distribution function and transport equation --From classical mechanics to quantum mechanics -- Time-independent Schrödinger equation -- Time-dependent Schrödinger equation -- General methods of quantum mechanics. Applications of the Schrödinger equation. Elementary case -- Cases related to the linear harmonic oscillator -- Other examples of the Schrödinger equation -- Time-dependent perturbation theory. Systems of interacting particles--Quantum statistics. Many-particle systems -- Separation of many-particle systems. Applications to semiconducting crystals. Periodic structures -- Electrons and holes in semiconductors at equilibrium. Transport phenomena in semiconductors. Mathematical model of semiconductor devices -- Generation-recombination and mobility. Basic semiconductor devices. Bipolar devices -- MOS devices. Miscellany. Thermal diffusion -- Thermal oxidation--Layer deposition -- Measuring the semiconductor parameters.

There are no comments on this title.

to post a comment.