Enhanced descriptions from Syndetics:

This is the first textbook to outline all the key concepts concerning the description and applications of new semiconductor microstructures such as quantum wells, superlattices, and hetrojunctional microdevices. These microstructures will provide a basis for new technologies in electronics and optical communication and are, therefore, of interest to both academic and industrial researchers. Accessible and thorough, this book assumes minimal background knowledge, and is suitable for undergraduates and first year graduates in electronics, materials science and physics, as well as those from other areas who wish to become familiar with the basic facts of this new field. Additionally, this title includes 80 sample problems with solutions.

Table of contents provided by Syndetics

• 1 Description of Non-Interacting Electrons in Periodic Structures: Free-Electron Model
• 2 Quantum States of Electrons Interacting With a Weak Periodic Potential: Nearly-Free-Electron Band Structure
• 3 Localized Representation of Electron States in Solids: Tight-Binding Model
• 4 Basic Observable Properties of Semiconductor Materials
• 5 Electronic Structure of Technologically Important Semiconductors
• 6 Physics of Semiconductor Interfaces
• 7 Quantum Wells, Superlattices, Quantum Wires, and Dots
• 8 Electron Transport in Microstructures
• 9 Optical Properties of Microstructures
• 10 Fabrication and Characterization of Semiconductor Microstructures
• 11 Application of Semiconductor Microstructures in Electronic Devices
• 12 Application of Semiconductor Microstructures in Optoelectronics