An introduction to organic lasers /

One of the biggest challenges of organic optoelectronics is the realization of the first organic laser diode (electrically pumped) which has a very strong potential for many applications. Similar to what happened in the field of inorganic optoelectronics when transforming LEDs into LDs, the race is...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Boudrioua, Azzedine (Autor), Chakaroun, Mahmoud (Autor), Fischer, Alexis (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : ISTE Press : Elsevier, 2017.
Colección:Advanced lasers set.
Temas:
Lasers.
Lasers
lasers (optical instruments)
TECHNOLOGY & ENGINEERING > Mechanical.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; An Introduction to Organic Lasers; Copyright ; Contents; Foreword; Acknowledgements; Introduction; 1. Organic Semiconductors; 1.1. Recap on organic chemistry; 1.2. Quantum model of the atom; 1.3. Sigma (s) and pi (p) bonds; 1.4. Example of molecular orbitals for simple molecules; 1.5. Energy diagram of different types of hybridization; 1.6. Conjugate molecules; 1.7. Conjugate polymers; 1.8. Influence of conjugation length; 1.9. Electronic properties of organic materials; 1.10. Optical properties of organic semiconductors; 1.11. Losses in organic materials.
  • 1.12. Notions of photometry1.13. Concepts of colorimetry; 1.14. Conclusion; 2. Organic Light-emitting Diodes; 2.1. Operation of an OLED; 2.2. Injection of charge carriers; 2.3. Charge transport; 2.4. Recombinations of charges and generation of excitons; 2.5. Dopants (guests); 2.6. OLED fabrication techniques; 2.7. Characterization of an OLED's electroluminescence; 2.8. Current-voltage-luminance (J-V-L) characterization of an OLED heterostructure; 2.9. Conclusion; 3. Organic Lasers; 3.1. Principle behind lasers; 3.2. Laser effect in organic materials.
  • 3.3. Theoretical model of an organic semiconductor laser3.4. Optically pumped organic lasers; 3.5. A step toward the electrically pumped organic laser; 3.6. Conclusion; 4. Organic Plasmonics: Toward Organic Nanolasers; 4.1. Optical properties of metals; 4.2. What is a plasmon?; 4.3. Theoretical approach to the localized surface plasmon (LSP); 4.4. Parameters influencing the localized surface plasmon; 4.5. Plasmonic materials and their properties; 4.6. Optical properties of an emitter in the vicinity of a metallic NP; 4.7. Effect of LSP on the properties of organic sources: state of the art.
  • 4.8. A step toward an organic plasmonic laser?4.9. Conclusion; Conclusion; Appendix: A Brief History of Organic Lasers; Bibliography; Index; Back Cover.

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