Nonlinear optics : fundamentals, materials, and devices : proceedings of the Fifth Toyota Conference on nonlinear, optical materials, Aichi-ken, Japan, 6-9 October 1991 /

The field of nonlinear optics developed gradually with the invention of lasers. After the discovery of second-harmonic generation in quartz, many other interesting nonlinear optical processes were rapidly discovered. Simultaneously theoretical programmes for the understanding of nonlinear optical ph...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor Corporativo: Toyota Conference Aichi-ken, Japan
Otros Autores: Miyata, Seiz�o, 1941-
Formato: Electrónico Congresos, conferencias eBook
Idioma:Inglés
Publicado: Amsterdam ; New York : North-Holland, 1992.
Temas:
Nonlinear optics > Congresses.
Optical materials > Congresses.
Optique non lin�eaire > Congr�es.
Mat�eriaux optiques > Congr�es.
SCIENCE > Physics > Optics & Light.
Nonlinear optics
Optical materials
Niet-lineaire optica.
Optische instrumenten.
Congress
proceedings (reports)
Conference papers and proceedings
Conference papers and proceedings.
Actes de congr�es.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 2. PLASMA-INDUCED NONLINEARITIES IN QUANTUM WIRES [13]3. COULOMB KINETICS IN A QUASI-TWO-DIMENSIONAL ELECTRON GAS [14]; REFERENCES; Chapter 3. Molecular Engineering Implications of Rotational Invariance in NonlinearOptics: Octupolar Systems for Quadratic Processes; ABSTRACT; 1. INTRODUCTION TO MULTIPOLAR SYSTEMS IN NONLINEAR OPTICS: THESPECIAL CASE OF OCTUPOLES; 2. OCTUPOLAR MOLECULES: SYMMETRY AND QUANTUM-MECHANICALCONSIDERATIONS; 3. MACROSCOPIC OCTUPOLAR ASSEMBLING FOR QUADRATIC NONLINEAROPTICS; 4. CONCLUSION
  • APPENDIX AIrreducible components of rank-3 symmetric tensors in cartesian notationAPPENDIX BMultipolar Groups of order L: definition and criteria.; BIBLIOGRAPHY; Chapter 4. Theoretical Calculations on Nonlinear Susceptibilities of OrganicMaterials; Abstract; 1. INTRODUCTION; 2. SURVEY OF THEORETICAL CALCULATIONS ON OPTICALNONLINEARITY OF ORGANIC MATERIALS; 3. CRYSTAL ENERGY CALCULATIONS OF ORGANICMATERIALS; 4. BASIS SETS FOR HYPERPOLARIZABILITY CALCULATIONS; 5. THE SECOND HYPERPOLARIZABILrnES OF POLYMERS; 6. THE EFFECT OF INTERMOLECULAR INTERACTIONS ONTHE HYPERPOLARIZABILrnES; 7ACKNOWLEDGMENT
  • 8. REFERENCESChapter 5. Local-Field Effects in Enhancing the Nonlinear Susceptibility of OpticalMaterials; Abstract; 1. INTRODUCTION; 2. Review of Earlier Work; a LINEAR AND NONLINEAR OPTICAL MEASUREMENTS OF LOCALFIELD CORRECTIONS FOR AN ATOMIC VAPOR; 4. NONLINEAR SUSCEPTIBILITY OF COMPOSITE OPTICALMATERIALS; 5. SUMMARY; 6. REFERENCES; Chapter 6. Frequency Dependence of Third Harmonic Generation in Cis and Trans-Polyacetylene: Importance of the Degenerate Ground State to NonlinearOptical Response; Abstract; Chapter 7. Resonant Interaction of Photons with Randomly Distributed Quantum Dots
  • Abstract1. INTRODUCTION; 2. MODEL AND FORMULATION; 3. NUMERICAL RESULT AND DISCUSSION; REFERENCES; Chapter 8. Enhanced Excitonic Optical Nonlinearity of Quantum Dot Lattice; Abstract; References; Part 2: Characterization; Chapter 9. A Simple Method to Determine the Phase of the Optical NonlinearSusceptibility of Ultrathin Films; 1. Introduction; 2. Experimental; 3. Numerical Calculation; 4. Examples; 5. References; Chapter 10. Ultrafast Relaxation in Conjugated Polymers with Large Optical Nonlinearity; 1. Introduction; 2. Experimental; 3. Results and Discussion; 4. Conclusion; References

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