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| 001 | 000045583520 | |
| 005 | 20100330172525 | |
| 008 | 100222s2009 enka b 001 0 eng | |
| 010 | ▼a 2010286081 | |
| 015 | ▼a GBA936308 ▼2 bnb | |
| 020 | ▼a 9780521875103 (hbk.) | |
| 020 | ▼a 0521875102 (hbk.) | |
| 035 | ▼a (OCoLC)ocn286434486 | |
| 040 | ▼a UKM ▼c UKM ▼d BTCTA ▼d YDXCP ▼d CUD ▼d FDA ▼d DLC ▼d 211009 | |
| 050 | 0 0 | ▼a TA1750 ▼b .L5 2009 |
| 082 | 0 4 | ▼a 621.38152 ▼a 621.381045 ▼2 22 |
| 090 | ▼a 621.38152 ▼b L6932o | |
| 100 | 1 | ▼a Li, Xun, ▼c Dr. |
| 245 | 1 0 | ▼a Optoelectronic devices : ▼b design, modeling, and simulation / ▼c Xun Li. |
| 260 | ▼a Cambridge, UK ; ▼a New York : ▼b Cambridge University Press , ▼c 2009. | |
| 300 | ▼a xii, 361 p. : ▼b ill. ; ▼c 26 cm. | |
| 504 | ▼a Includes bibliographical references and index. | |
| 505 | 0 | ▼a Optical models -- Material model I : semiconductor band structures -- Material model II : optical gain -- Carrier transport and thermal diffusion models -- Solution techniques for optical equations -- Solution techniques for material gain equations -- Solution techniques for carrier transport and thermal diffusion equations -- Numerical analysis of device performance -- Design and modeling examples of semiconductor laser diodes -- Design and modeling examples of other solitary optoelectronic devices -- Design and modeling examples of integrated optoelectronic devices. |
| 650 | 0 | ▼a Optoelectronic devices ▼x Design and construction. |
| 945 | ▼a KLPA |
Holdings Information
| No. | Location | Call Number | Accession No. | Availability | Due Date | Make a Reservation | Service |
|---|---|---|---|---|---|---|---|
| No. 1 | Location Science & Engineering Library/Sci-Info(Stacks2)/ | Call Number 621.38152 L6932o | Accession No. 121190823 | Availability Available | Due Date | Make a Reservation | Service |
Contents information
Book Introduction
Li (electrical and computer engineering, McMaster U., Hamilton, Ontario, Canada) presents a text designed to bridge the gap between the knowledge of electromagnetic theory, quantum mechanics, and semiconductor physics and optoelectronic device design and modeling. The major topics addressed include the derivation and explanation of governing equations that model the closely coupled physics processes in optoelectronic devices; numerical solution techniques for the governing equations arising from the first section, and how these techniques are jointly applied in device simulation; and real-world design and simulation examples of optoelectronic devices, such as Fabry-Perot and distributed feedback laser diodes, electro-absorption modulators, semiconductor optical amplifiers, superluminescent light emitting diodes, and their monolithic integrations. The text offers researchers, device designers, and graduate students in optoelectronics the numerical techniques to obtain solutions for their own structures. Annotation ⓒ2009 Book News, Inc., Portland, OR (booknews.com)
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Table of Contents
1. Introduction; 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; Appendices.
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