1. Introductory concepts; 2. Photoconductivity; 3. One-center recombination models; 4. The Shockley-Read one-center model; 5. Two-center recombination effects; 6. Recombination mechanisms; 7. Steady-state photoelectronic analysis; 8. Transient photoelectronic analysis; 9. Photoeffects at grain boundaries; 10. Amorphous semiconductors; 11. Photovoltaic effects; 12. Quantum wells and superlattices; Bibliography; Index.
This book examines the fundamental physics underlying the rich complexity of photoelectronic properties of semiconductors, and discusses the models that are useful in describing these fundamentals.
"...recommended as a resource that provides valuable insights for today's graduate students and more seasoned researchers alike. Here they will find a conceptual framework of basic principles to serve as a guide as they venture into new materials or devices or encounter unfamiliar photoconductive phenomena." J. Mort, Optical Engineering
|
Ask a Question About this Product More... |
|
