With a clear application focus, this book explores optoelectronic device design and modeling through physics models and systematic numerical analysis. By obtaining solutions directly from the physics-based governing equations through numerical techniques, the author shows how to develop new devices and how to enhance the performance of existing devices. Semiconductor-based optoelectronic devices such as semiconductor laser diodes, electroabsorption modulators, semiconductor optical amplifiers, superluminescent light emitting diodes and their integrations are all covered. Including step-by-step practical design and simulation examples together with detailed numerical algorithms, this book provides researchers, device designers and graduate students in optoelectronics with the numerical techniques to obtain solutions for their own structures.Read more
- Presents step-by-step practical design and simulation examples for readers to follow
- Includes detailed algorithms, providing readers with the numerical techniques to obtain solutions for their own structures
- Problems, solutions, and software are provided online to support learning of the topics
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- Date Published: June 2009
- format: Hardback
- isbn: 9780521875103
- length: 374 pages
- dimensions: 253 x 178 x 22 mm
- weight: 0.88kg
- contains: 3 b/w illus.
- availability: In stock
Table of Contents
2. Optical models
3. Material model I - semiconductor band structures
4. Material model II - the optical gain
5. Carrier transport and thermal diffusion models
6. Solution techniques for optical equations
7. Solution techniques for material gain equations
8. Solution techniques for carrier transport and thermal diffusion equations
9. Numerical analysis of device performance
10. Design and modeling examples of semiconductor laser diodes
11. Design and modeling examples of other solitary optoelectronic devices
12. Design and modeling examples of integrated optoelectronic devices
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