Progress in optics Vol. XXXI /

Progress in Optics Volume 31.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Wolf, Emil, Dattoli, G.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam : North-Holland Pub. Co., 1993.
Colección:Progress in Optics.
Temas:
Optics.
Optique.
optics.
SCIENCE > Physics > Optics & Light.
Optics
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Progress in Optics, Volume XXXI; Copyright Page; Contents; CHPTER I. ATOMS IN STRONG FIELDS: PHOTOIONIZATION AND CHAOS; 1. Introduction; 2. Classical Phenomenological Theory of Gas Breakdown by a Laser; 3. Perturbation Theory of Multiphoton Ionization; 4. Beyond Lowest-Order Perturbation Theory: Intermediate Resonances; 5. Volkov States; 6. The Keldysh Approximation; 7. Above-Threshold Ionization: Experiments; 8. Above-Threshold Ionization: Theory; 9. High-Order Harmonic Generation; 10. Discussion; 11. What is Chaos?
  • 12. Questions of Chaos in Atomic Physics 13. Microwave Ionization of Hydrogen: Experiments and Classical Theory; 14. Microwave Ionization of Hydrogen: Quantum Theory; 15. Summary and Open Questions; Acknowledgements; References; CHPTER II. LIGHT DIFFRACTION BY RELIEF GRATINGS: A MACROSCOPIC AND MICROSCOPIC VIEW; 1. Introduction; 2. Quasiperiodicity: A Fundamental Property of Gratings; 3. Phenomenological Approach: A Step toward the Physical Interpretation of Grating Properties; 4. Microscopic Properties of Light Diffracted by Relief Gratings; Acknowledgements; References
  • CHPTER III. OPTICAL AMPLIFIERS 1. Introduction; 2. Semiconductor Optical Amplifiers; 3. Fiber Amplifiers; 4. Lightwave Transmission System Studies; References; CHPTER IV. ADAPTIVE MULTILAYER OPTICAL NETWORKS; 1. Introduction; 2. Optical Multilayer Network; 3. Implementation of Fully Adaptive Learning Algorithms; 4. Discussion and Conclusions; Acknowledgements; References; CHPTER V. OPTICAL ATOMS; 1. Introduction; 2. Two-Level Systems with Constant Coupling; 3. Optical Band Structure; 4. Four-Level Systems; 5. Dynamical Behavior of the Optical Atom
  • 6. The Driven Optical Ring Resonator as a Model for Microscopic Systems 7. Conclusions; Acknowledgements; References; CHPTER VI. THEORY OF COMPTON FREE ELECTRON LASERS; 1. Introduction; 2. Spontaneous Emission by Relativistic Electrons Moving in an Undulator Magnet; 3. The FEL Gain; 4. Transverse Mode Dynamics; 5. Longitudinal Dynamics; 6. FEL Oscillator Regime and the Pulse Propagation Problem; 7. FEL Saturation; 8. A Simplified View of FEL Storage Ring Dynamics; 9. Conclusion; Appendix A. Optical Cavity for the FEL; Appendix B. Undulator Magnets for the FEL; References
  • Author IndexSubject Index; Cumulative Index, Volumes I-XXXI

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