Semiconductor Devices: An Introduction present a balanced approach to the physics of electrons in semiconductors and how this physics is used to produce devices. The basis of all electronic devices---bandstructure, density of states, Fermi statistics, doping concepts, transport and optical issues---are first explored with the focus on providing the reader with a physical insight into these important phenomena.

The basic semiconductor devices are explored at two levels: (1) a mathematically rigorous but simple model for each device is developed and then; (2) the motivations of modern devices which are more complex and provided. By discussing silicon, gallium arsenide and other semiconductor based devices, the text provides a state-of-the-art discussion of modern electronic devices. Most subsections end with a solved example so that the reader develops a feel of real numbers and the importance of design. The text also contains numerous end-of-chapter problems, summary tables, and a feature entitled, "A Bit of History," which provides historical perspectives of topics covered in the chapter.