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Horizons in world physics. Volume 280 /
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York :
Nova Publishers,
©2013.
|
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- 3.10. SSP of MoTaNb Metallic Glass zyxConclusion ; References ; MONOLITHIC PHOSPHOR-FREE WHITE EMISSION BY INGAN/GAN QUANTUM WELLS ; Abstract ; 1. Introduction ; 1.1. Semiconductor Solid State Lighting ; 1.2. Group-III Nitrides: Materials and Applications ; 2. Monolithic Phosphor-Free White Emission by Ingan/Gan Quantum Wells on Microfacets ; 2.1. InGaN/GaN Quantum Wells on Epitaxially Laterally Overgrown Stripes ; 2.2. InGaN Active Layers on Pyramids ; 2.3. InGaN/GaN Quantum Wells on Self-Organized Faceted Islands ; 2.3.1. Dichromatic Light Emission; 2.3.2. Trichromatic White Emission.
- 2.3.3. Tetrachromatic White Emission 3. Other Monolithic Phosphor-Free White Light Sources ; 3.1. Laterally Distributed InGaN/GaN Quantum Wells ; 3.2. Cascade InGaN/GaN Quantum Wells ; 3.3. Strain Modulated InGaN/GaN Quantum Wells with In-Rich Nanostructures ; Conclusion ; Acknowledgments ; References ; INTRA-BAND ELECTRON RAMAN SCATTERING IN SEMICONDUCTOR QUANTUM WELL AND LASER APPLICATIONS ; Abstract ; 1. Introduction; 2. Model and Solution of Schrödinger's Equation ; 2.1 Multiple Quantum Wells with an External Uniform Electric Field.
- 3. The Electron-Phonon Interaction Hamiltonianfor a Semiconductor Quantum Well 4. Intraband Electron Raman Scattering ; 4.1. Differential Cross-Section for Asymmetrical Quantum Wellwithout the Presence of an External Electric Field ; 4.1.1. Differential Cross-Section for a Process without the Assistance of One Phonon ; 4.1.2. Differential Cross-Section for a Process with the Assistance of One Phonon ; 4.1.3. Discussion of the Obtained Results ; 4.2. Differential Cross-Section for Asymmetrical Quantum Well with the Presence of an External Electric Field.
- 5. Net Raman Gain of the Asymmetrical Multiple Conclusion ; References ; NONLINEAR OPTICAL EFFECTS IN INTERSUBBAND TRANSITIONS OF SEMICONDUCTOR QUANTUM WELLS: EFFECTS OF ELECTRON-ELECTRON INTERACTIONS ; Abstract ; Introduction ; 2. Semiconductor Quantum Well Structure under Study ; 3. Creation of Intrinsic Optical Bistability; 4. Derivation of the First, Third and Fifth Order Optical Susceptibilities ; 5. Pump-Probe Optical Response ; Conclusion ; Acknowledgments ; References ; ION-INDUCED MODIFICATION AND CRIMPING 1OF CARBON COMPOSITE FIBERS; Abstract ; Introduction ; Experimental.