Advances in atomic, molecular, and optical physics ;
v. 34
Includes bibliographical references and index.
Front Cover; Advances in Atomic, Molecular, and Optical Physics, Volume 34; Copyright Page; Contents; Contributors; Preface; Chapter 1. Atom Interferometry; I. Introduction; II. General Principles; III. Beam Splitters; IV. Applications of Atom Interferometry; V. Atom Interferometers; VI. Outlook; References; Chapter 2. Optical Tests of Quantum Mechanics; I. Introduction: The Planck-Einstein Light-Quantum Hypothesis; II. Quantum Properties of Light; III. Nonclassical Interference and "Collapse"; IV. Complementarity; V. The EPR "Paradox" and Bell's Inequalities; VI. Related Issues
Chapter 5. The Measurement and Analysis of Electric Fields in Glow Discharge PlasmasI. Introduction; II. Theory of the Stark Effect; III. Electric Field Mapping Based on the Stark Effect in Atoms; IV. Electric Field Mapping Based on the Stark Effect in Molecules; V. Conclusion; References; Chapter 6. Polarization and Orientation Phenomena in Photoionization of Molecules; I. Introduction; II. Spin Polarization of Photoelectrons Ejected from Unoriented Molecules; III. Photoionization of Oriented Molecules; IV. Circular and Linear Dichroism in the Angular Distribution of Photoelectrons
II. Upper Limit to Rate CoefficientIII. Crossing Dissociative Recombination; IV. Tunneling Dissociative Recombination; V. Signature of Polyatomic Ion Dissociative Recombination; References; Index; Contents of Volumes in This Serial
V. Optical Activity of Oriented MoleculesVI. Conclusions; References; Chapter 7. Role of Two-Center Electron-Electron Interaction in Projectile Electron Excitation and Loss; I. Introduction; II. Theory; III. Comparison with Experiment; IV. Conclusion; References; Chapter 8. Indirect Processes in Electron Impact Ionization of Positive Ions; I . Introduction; II. Basic Ideas: The Independent Processes Model; III. Theory; IV. Comparison of Experimental and Theoretical Data; V. Conclusions; References; Chapter 9. Dissociative Recombination: Crossing and Tunneling Modes; I. Introduction
VII. The Reality of the Wave FunctionVIII. The Single-Photon Tunneling Time; IX. Envoi; References; Chapter 3. Classical and Quantum Chaos in Atomic Systems; I . Introduction; II. Time Scales-Energy Scales; III. Spectroscopy; IV. Wave Functions: Localization and Scars; V. Dynamics; VI. Conclusions; References; Chapter 4. Measurements of Collisions between Laser-Cooled Atoms; I. Introduction; II. Collisions in Optical Traps: General Considerations; III. Collisions of Ground State Atoms; IV. Collisions Involving Singly Excited States; V. Collisions Involving Doubly Excited States; References
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Established in 1965, Advances in Atomic, Molecular, and Optical Physics continues its tradition of excellence with Volume 34. The latest volume includes nine reviews of topics related to the applications of atomic and molecular physics to atmospheric physics and astrophysics.
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Advances in atomic, molecular, and optical physics. Volume 34.