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Quantum Heterostructures provides a detailed description of the key physical and engineering principles of quantum semiconductor heterostructures. Blending important concepts from physics, materials science, and electrical engineering, it also explains clearly the behavior and operating features of modern microelectronic and optoelectronic devices. The authors begin by outlining the trends that have driven development in this field, most importantly the need for high-performance devices in computer, information, and communications technologies. They then describe the basics of quantum nanoelectronics, including various transport mechanisms. In the latter part of the book, they cover novel microelectronic devices, and optical devices based on quantum heterostructures. The book contains many homework problems and is suitable as a textbook for undergraduate and graduate courses in electrical engineering, physics, or materials science. It will also be of great interest to those involved in research or development in microelectronic or optoelectronic devices.
List of contents
Preface; 1. Trends in microelectronics and optoelectronics; 2. Theoretical basis of nanoelectronics; 3. Electrons in quantum structures; 4. Properties of particular quantum structures; 5. Lattice vibrations in quantum structures; 6. Electron scattering in quantum structures; 7. Parallel transport in quantum structures; 8. Perpendicular transport in quantum structures; 9. Electronic devices based on quantum heterostructures; 10. Optics of quantum structures; 11. Electro-optics and nonlinear optics; 12. Optical devices based on quantum structures.
Summary
This book provides a detailed description of the key physical and engineering principles of quantum semiconductor heterostructures. Blending important concepts from physics, materials science, and electrical engineering, it also explains clearly the behaviour and operating features of modern microelectronic and optoelectronic devices.
