UID:
almahu_9948026596302882
Umfang:
1 online resource (509 p.)
ISBN:
1-281-11196-1
,
9786611111960
,
0-08-051921-0
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1-4237-0931-4
Serie:
Thin films and nanostructures, v. 31
Inhalt:
The first book devoted to a systematic consideration of electronic excitations and electronic energy transfer in organic crystalline multilayers and organics based nanostructures(quantum wells, quantum wires, quantum dots, microcavities). The ingenious combination of organic with inorganic materials in one and the same hybrid structure is shown to give qualitatively new opto-electronic phenomena, potentially important for applications in nonlinear optics, light emitting devices, photovoltaic cells, lasers and so on. The book will be useful not only for physicists but al
Anmerkung:
Description based upon print version of record.
,
Cover; Contents; Contributors; Preface; Chapter 1. Frenkel and Charge-Transfer Excitons in Organic Solids; 1. Introduction; 2. Microscopic Theory of Frenkel Excitons; 3. Dielectric Theory of Frenkel Excitons; 4. Diffusion of Frenkel Excitons; 5. Self-Trapping of Excitons: Spectra and Transport; 6. Charge-Transfer Excitons in Organic Solids; 7. Molecular Aggregates: Low-Dimensional Exciton Systems; 8. Excitons in Biological Systems; 9. Concluding Remarks; Acknowledgement; References; Chapter 2. Wannier -Mott Excitons in Semiconductors; 1. Introduction
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2. Wannier-Mott Excitons in Bulk Semiconductors3. Quantum Confined Wannier-Mott Excitons; 4. Quantum Well Exciton Optical Nonlinearities; References; Chapter 3. Polaritons; 1. Introduction and General Concepts; 2. Classical Theory of Polaritons; 3. QuantumTheory of Polaritons; 4. Real Space Density Matrix Approach; 5. Experiments onPolaritons; 6. Surface Polaritons; 7. Quantum Well Polaritons; 8. Quantum Wire Polaritons; 9. Exciton-Polaritons in Microcavities; Acknowledgements; References
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Chapter 4. Optics and Nonlinearities of Excitons in Organic Multilayered Nanostructures and Superlattices1. Introduction; 2. Dielectric Constant Tensor of Long Period Organic Superlattices with Isotropic Layers; 3. Dielectric Constant Tensor of Long Period Organic Superlattices with Anisotropic Layers; 4. Optical Nonlinearities in Organic Multilayers; 5. Dielectric Tensor for Short Period Organic Superlattices; 6. Gas-Condensed Matter Shift and Possibility to Govern Spectra of Frenkel Excitons; 7. Fermi Resonance Interface Modes in Organic Superlattices; References
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Chapter 5. Mixing of Frenkel and Charge-Transfer Excitons and Their Quantum Confinement in Thin Films1. Introduction; 2. Electronic Frenkel and Charge-Transfer Excitons in Rigid One-Dimensional Crystals; 3. Strong Coupling of the Electronic Excitations with Internal Phonon Modes; 4. Applications and Consequences for Quantum Confinement; 5. Conclusion; Acknowledgements; References; Chapter 6. Two-Dimensional Charge-Transfer Excitons at a Donor-Acceptor Interface; 1. Phase Transition from Dielectric to Conducting State (Cold Photoconductivity)
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5. On the Hybridization of ""Zero-Dimensional"" Frenkel and Wannier-Mott Excitons
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English
Weitere Ausg.:
ISBN 0-12-533031-6
Sprache:
Englisch
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