Advances in atomic, molecular, and optical physics. Volume 41 /

This series, established in 1965, is concerned with recent developments in the general area of atomic, molecular, and optical physics. The field is in a state of rapid growth, as new experimental and theoretical techniques are used on many old and new problems. Topics covered also include related ap...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Bederson, Benjamin, Walther, H. (Herbert), 1935-2006
Formato: Electrónico eBook
Idioma:Inglés
Publicado: San Diego ; London : Academic Press, �1999.
Colección:Advances in atomic, molecular, and optical physics ; 41
Temas:
Atoms.
Molecules.
Physical optics.
Atomes.
Mol�ecules.
Optique physique.
SCIENCE > Physics > Quantum Theory.
Atoms
Molecules
Physical optics
Physique atomique.
Acceso en línea:Texto completo
Texto completo
Tabla de Contenidos:
  • Front Cover; Advances in Atomic, Molecular, and Optical Physics, Volume 41; Copyright Page; Contents; Contributors; Chapter 1. Two-Photon Entanglement and Quantum Reality; I. Introduction; II. ""Ghost"" Image and Interference; III. Experimental Testing of Bell's Inequalities; IV. Why Two-Photon But Not Two Photons?; V. Conclusion; VI. Acknowledgments; VII. Notes; VIII. References; Chapter 2. Quantum Chaos with Cold Atoms; I. Introduction; II. Two-Level Atoms in a Standing-Wave Potential; III. Experimental Method; IV. Single Pulse Interaction; V. Kicked Rotor; VI. The Modulated Standing Wave
  • VII. Conclusion and Future DirectionsVIII. Acknowledgments; IX. References; Chapter 3. Study of the Spatial and Temporal Coherence of High-Order Harmonics; I. Introduction; II. Theory of Harmonic Generation in Macroscopic Media; III. Phase Matching; IV. Spatial Coherence; V. Temporal and Spectral Coherence; VI. Future Applications; VII. Conclusion; VIII. Acknowledgments; IX. References; Chapter 4. Atom Optics in Quantized Light Fields; I. Introduction; II. Ante; III. Atomic Deflection by a Resonant Quantum Field; IV. Atom Optics in Nonresonant Fields; V. The Bragg Regime; VI. Conclusion
  • VII. AcknowledgmentsVIII. References; Chapter 5. Atom Waveguides; I. Introduction; II. Guiding of Atoms with Static Electrical and Magnetic Fields; III. Evanescent Light Wave; IV. Guiding Atoms with Evanescent Wave; V. Atom Waveguide with Propagating Laser Fields; VI. Experiments with Atom Guiding; VII. Acknowledgments; VIII. References; Chapter 6. Atomic Matter Wave Amplification by Optical Pumping; I. Introduction; II. Model of an Atom Laser; III. Master Equation; IV. Photon Reabsorption; V. Summary; VI. Acknowledgments; VII. Appendix A: N-Atom Master Equation; VIII. References

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