Introduction to electronic devices /
Michael Shur.
- New York : J. Wiley, c1996.
- xxv, 577 p. : ill. ; 26 cm.
CHAPTER 1 BASICS OF QUANTUM MECHANICS Introduction Quantum mechanical concepts Tunneling Atomic states and chemical bonds
CHAPTER 2 BASIC OF SOLID STATE PHYSICS Introduction Crystal Symmetry Energy bands. Dielectrics, semiconductors, and mental Distribution functions and densities of states densities of states for two and one dimensional electron gases
CHAPTER 3 ELECTRONS AND HOLES IN SEMICONDUCTORS Introduction Electrons and holes Electrons and hole concentrations Electrons and hole mobilities and draft velocities Diffusion Basic semiconductor equations
CHAPTER 4 DIODES AND CONTACTS Introduction p-n junctions at zero bias p-n junctions under bias Depletion and diffusion capacitance Junction break down Tunnel diodes etc.
CHAPTER 5 BIPOLAR JUNCTION TRANSISTORS Principle of operation BJT modelling Break down in bipolar junction transistors Small signal equivalent circuit Small signal operation and cutoff frequencies Heterojunction bipolar transistors
Chapter 6 MOSFETs Principle of operation Charge control models MOSFET threshold voltage MOSFET modelling FET small signal equivalent circuit CMOS etc.
CHAPTER 7 COMPOUND SEMICONDUCTOR FETS AND THIN FILM TRANSISTORS (TFTS) Introduction Compound semiconductor FETs Thin film transistors
CHAPTER 8 PHOTONIC DEVICES Electromagnetic spectrum and optical properties of solids Solar cells Photodectors Electroluminescence and light-emitting diodes Lesers Integrated ptoelectronics Display
CHAPTER 9 DEVICE FABRICATION AND NOVEL DEVICES Introduction Material growth and device fabrication Hot electronic transistors Super lattice devices Resonant tunneling devices Heterodimension device Wide band gap semiconductor materials and devices super conducting devices
Includes bibliographical references (p. 537) and index.