Physics of Semiconductor Devices

Part I 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.- Part II Introductory Concepts to Statistical and Quantum Mechanics.- Classical Distribution Function and Transport Equation.- From Classical Mechanics to Quantum Mechanics.- Time-Independent Schrodinger Equation.- Time-Dependent Schrodinger Equation.- General Methods of Quantum Mechanics.- Part III Applications of the Schrodinger Equation.- Elementary Cases.- Cases Related to the Linear Harmonic Oscillator.- Other Examples of the Schrodinger Equation.- Time-Dependent Perturbation Theory.- Part IV Systems of Interacting Particles- Quantum Statistics.- Many-Particle Systems.- Separation of Many-Particle Systems.- Part V Applications to Semiconducting Crystals.- Periodic Structures.- Electrons and Holes in Semiconductors at Equilibrium.- Part VI Transport Phenomena in Semiconductors.- Mathematical Model of Semiconductor Devices.- Generation-Recombination and Mobility.- Part VII Basic Semiconductor Devices.- Bipolar Devices.- MOS Devices.- Part VIII Miscellany.- Thermal Diffusion.- Thermal Oxidation- Layer Deposition.- Measuring the Semiconductor Parameters.