Crystalline Properties of Solids.- Introduction.- Crystal lattices and the seven crystal systems .- The unit cell concept.- Bravais lattices .- Point groups.- Space groups.- Directions and planes in crystals: Miller indices.
- Real crystal structures.- Summary.- Further reading.- Problems.- The Reciprocal Lattice.- Introduction.- Diffraction by a crystal.- Structure factor.
- Atomic form factor.- First Brillouin zone.- Summary.- References.- Further reading.- Problems.- Electronic Structure of Atoms.- Introduction.
- Spectroscopic emission lines and atomic structure of hydrogen.- Atomic orbitals.- Structures of atoms with many electrons.- Bonds in solids.- Introduction to energy bands.- Summary.- Further reading.- Problems.
- Introduction to Quantum Mechanics.- The quantum concepts.- Elements of quantum mechanics.- Simple quantum mechanical systems.- Summary.- Further reading.- Problems.- Electrons and Energy Band Structures in Crystals.
- Introduction.- Electrons in a crystal.- Band structures in real semiconductors.- Band structures in metals.- Summary.- References.- Further reading.- Problems.
- Phonons.- Introduction.- Interaction of atoms in crystals: origin and formalism.- One-dimensional monoatomic harmonic crystal.- Sound velocity.- One-dimensional diatomic harmonic crystal.- Phonons.- Summary.
- Further reading.- Problems.- Thermal Properties of Crystals.- Introduction.- Phonon density of states (Debye model).- Heat capacity.- Thermal expansion.- Summary.
- References.- Further reading.- Problems.- Equilibrium Charge Carrier Statistics in Semiconductors.- Introduction.- Density of states.- Effective density of states (conduction band).- Effective density of states (valence band).
- Mass action law.- Doping: intrinsic vs. extrinsic semiconductor.- Charge neutrality.- Fermi energy as a function of temperature.- Carrier concentration in a semiconductor.- Summary.- Further reading.
- Problems.- Non-Equilibrium Electrical Properties of Semiconductors.- Introduction.- Electrical conductivity.- Doping.- Charge carrier diffusion.- Carrier generation and recombination mechanisms.- Summary.
- Further reading.- Problems.- Semiconductor Junctions.- Introduction.- Ideal p-n junction at equilibrium.- Non-equilibrium properties of p-n junctions.- Deviations from the ideal p-n diode case.- Metal-semiconductor junctions.
- Summary.- Further reading.- Problems.- Optical Properties of Semiconductors.- Introduction.- Electron-photon interaction.- The dielectric permitivity of a solid.- Excitons.
- Phonon-photon interaction.- Plasmons.- Electro-optical properties.- Electrons in a magnetic field.- Nonlinear optical properties.- Optical properties of important semiconductors.- Summary.- References.
- Further reading.- Problems.- Low Dimensional Quantum Structures.- Introduction.- two-dimensional structures: quantum wells.- One-dimensional structures: quantum wires.- Zero-dimensional structures: quantum dots.- Examples of low dimensional structures.
- Optical properties of 3D, 2D, 1D and 0D structures.- Summary.- References.- Further reading.- Problems.- Semiconductor Heterostructures.- Introduction.- Energy band offsets.
- Type I alignment.- Type II alignments.- Summary.- References.- Further reading.- Problems.- Compound Semiconductors and Crystal Growth Techniques.- Introduction.
- III-V semiconductor alloys.- Bulk single crystal growth techniques.- Epitaxial growth techniques.- Summary.- References.- Further reading.- Problems.- Silicon and Compound Semiconductor Device Technology.
- Introduction.- Oxidation in Silicon.- Diffusion of dopants.- Ion implantation of dopants.- Characterization of diffused and implanted layers.- Summary.- References.- Further reading.
- Problems.- Semiconductor Chara.