Principles of Semiconductor Devices

Physical Foundations of Solid State Devices

This note covers the following topics: Classical mechanics and the advent of quantum mechanics, The postulates of quantum mechanics, Position and momentum space, Operators, The Heisenberg uncertainty principle, The Schrodinger equation, Applications of the Schrodinger equation in nonperiodic structures and periodic structures, Approximate solutions of the Schrodinger equations, Time independent  and dependent perturbation theory, Density of states, Classical and quantum statistics, Carrier concentrations, Impurities in semiconductors, High doping effects, Heterostructures, Tunneling structures, Electronic transport and selectively doped heterostructures.

Author(s): E F Schubert, Rensselaer Polytechnic Institute

273 Pages

Solid State Devices Handouts

This note covers the following topics: Geometry of Crystals, Elements of Quantum Mechanics, Solution of Schrodinger Equation, Energy Bands, Energy Bands in 3D Crystals, Density of States, Fermi-Dirac Statistics, Charge, field, potential, Donor or Acceptor, Equilibrium Statistics,Recombination-Generation, SRH formula, Surface Recombination, PN Junction Diode Electrostatics, I-V Characteristics, I-V Characteristics, BJT Nonideal effects , BJT Design, MOS-C Electrostatics.

Author(s): Purdue University

NA Pages

Solid State Electronic Devices Class notes

This note explains the following topics: Carrier Modeling, Carrier types and Carrier Properties, Types of Semiconductors, ACCEPTOR, DONORS and AMPHOTERIC atoms in III-V semiconductors, Carrier Densities, Carrier action – motion, recombination and generation.

Author(s): Matthew Goeckner

79 Pages

Principles of Semiconductor Devices Lecture

This note covers the following topics: Negative-Capacitor Landau Transistors, Physics of Nanoelectromechanical (NEMS) Switches, Sequencing a Genome by a Torrent of Ions, Geometry of Diffusion and Performance Limits of Nanobiosensors, Computational Modeling, Device Options and Trade-offs for 5 nm CMOS Technology.

Author(s): Muhammad A. Alam

NA Pages