$145.00 CAD
pp. 309, as new, still in shrink wrap, “The author develops the effective-mass theory of excitons in low-dimensional semiconductors and describes numerical methods for calculating the optical absorption including Coulomb interaction, geometry, and external fields. The theory is applied to Fano resonances in low-dimensional semiconductors and the Zener breakdown in superlattices. Comparing theoretical results with experiments, the book is essentially self-contained; it is a hands-on approach with detailed derivations, worked examples, illustrative figures, and computer programs. The book is clearly structured and will be valuable as an advanced-level self-study or course book for graduate students, lecturers, and researchers.”
In stock
| ISBN | 3540202404 | |
|---|---|---|
| Number of pages | 309 | |
| Original Title | Excitons in Low-Dimensional Semiconductors: Theory Numerical Methods Applications | |
| Published Date | 2004 | |
| Book Condition | Very Good | |
| Jacket Condition | No dustjacket, as published | |
| Binding | Hardcover | |
| Size | 8vo | |
| Place of Publication | New York | |
| Category: | Texts | |
| Author: | S. Glutsch | |
| Publisher: | Springer |
pp. 309, as new, still in shrink wrap, “The author develops the effective-mass theory of excitons in low-dimensional semiconductors and describes numerical methods for calculating the optical absorption including Coulomb interaction, geometry, and external fields. The theory is applied to Fano resonances in low-dimensional semiconductors and the Zener breakdown in superlattices. Comparing theoretical results with experiments, the book is essentially self-contained; it is a hands-on approach with detailed derivations, worked examples, illustrative figures, and computer programs. The book is clearly structured and will be valuable as an advanced-level self-study or course book for graduate students, lecturers, and researchers.”
| Weight | 1 kg |
|---|
