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Optical properties of III-V compounds /
SEMICONDUCTORS & amp; SEMIMETALS V3.
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York :
Academic Press,
�1967.
|
| Colección: | Semiconductors and semimetals ;
v. 3. |
| Temas: | |
| Acceso en línea: | Texto completo Texto completo |
Tabla de Contenidos:
- Front Cover; Optical Properties of III-V Compounds; Copyright Page; Contents; List of Contributors; Preface; Contents of Previous Volumes; Part I: Lattice Effects; Chapter 1. Lattice Reflection; I. Introduction; II. Experimental Techniques; III. Analysis of Results; IV. Experimental Investigations; V. Effective Ionic Charge; Chapter 2. Multiphonon Lattice Absorption; I. Introduction; II. Lattice Absorption in Semiconductors; III. Measurements and Data; IV. Critical-Point Analysis; Chapter 3. Emittance Studies; I. Introduction; II. Experimental Technique; III. Experimental Results.
- IV. DiscussionV. Summary; Part II: Intrinsic Absorption; Chapter 4. Ultraviolet Optical Properties; I. Introduction; II. Experimental Procedures; III. Analysis of Reflectance Data; IV. Theoretical Framework; V. Discussion of Experimental Results; Chapter 5. Optical Absorption above the Fundamental Edge; I. Introduction; II. Absorption Spectrum of Germanium; III. Absorption Spectra of the III-V Compounds; IV. Systematics of the Energy Bands of Zinc-Blende Materials; V. Calculation of Band Parameters; Chapter 6. Absorption near the Fundamental Edge; I. Introduction.
- II. Review of the Basic TheoryIII. The Fundamental Absorption in the Absence of Interactions; IV. Effects Due to Scattering; V. Effects of Temperature and Pressure on the Absorption Edge; VI. Impurity Absorption; VII. Exciton Transitions; VIII. The Fundamental Absorption in the Presence of a Magnetic Field; IX. Transitions Involving Impurity-Exciton Complexes; X. The Fundamental Absorption in the Presence of an Electric Field; XI. The Fundamental Absorption in Heavily Doped Material; XII. Note Added in Proof; Chapter 7. Introduction to the Theory of Exciton States in Semi- conductors.
- I. IntroductionII. Effective-Mass Theory for Exciton States; III. Optical Absorption by Excitons; IV. The Effects of an External Magnetic Field; V. Application to Group III-V Compounds; VI. Summary; Chapter 8. Interband Magnetooptical Effects; I. Introduction; II. Theory; III. Experiments; IV. Discussion; V. Note Added in Proof; Part III: Free Carriers; Chapter 9. Effects of Free Carriers on the Optical Properties; I. Absorption Due to Free Carriers; II. Carrier Susceptibility and Infrared Reflection; Chapter 10. Free-Carrier Magnetooptical Effects; I. Introduction.
- II. Index of Refraction of the MagnetoplasmaIII. Free-Carrier Magnetooptical Effects; IV. Free-Carrier Magnetooptical Experiments; Part IV: Photoelectronic Effcts; Chapter 11. Photoelectronic Analysis; I. Concepts and Parameters; II. Techniques of Photoelectronic Analysis; III. Applications of Photoelectronic Analysis; Part V: Optical Constants; Chapter 12. Optical Constants; Introduction; I. Boron Phosphide; II. Aluminum Antimonide; III. Gallium Phosphide; IV. Gallium Arsenide; V. Gallium Antimonide; VI. Indium Phosphide; VII. Indium Arsenide; VIII. Indium Antimonide; Author Index.