Advances in Atomic and Molecular Physics
Academic Press
Published on 1. November 1983
460 pages
978-0-08-056479-1 (ISBN)
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Advances in Atomic and Molecular Physics
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D.R. Bates | Benjamin Bederson
Advances in Atomic and Molecular Physics: v. 19
Book
11/1983
Academic Press
€149.80
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Content
- Front Cover
- Advances in Atomic and Molecular Physics, Volume 19
- Copyright Page
- Contents
- Contributors
- Chapter 1. Electron Capture in Collisions of Hydrogen Atoms with Fully Stripped Ions
- I. Introduction
- II. Basic Properties of the One-Electron Two-Coulomb Centers System
- III. The Calculation of Cross Sections by Expansion Methods Using a Molecular Orbital Basis
- IV. Atomic and Pseudostate Expansions
- V. Charge Exchange at High Velocities
- VI. Classical Descriptions
- VII. Conclusions
- References
- Chapter 2. Interactions of Simple Ion-Atom Systems
- I. Introduction
- II. Experimental Methods
- III. Theoretical Methods
- IV. Excitation
- V. Electron Capture
- VI. Ionization
- VII. Elastic Scattering
- VIII. Conclusions
- References
- Chapter 3. High-Resolution Spectroscopy of Stored Ions
- I. Introduction
- II. Ion Storage Techniques
- III. Lepton Spectroscopy
- IV. Mass Spectroscopy
- V. Atomic and Molecular Ion Spectroscopy
- VI. Negative Ion Spectroscopy
- VII. Radiative Lifetime Measurements
- References
- Chapter 4. Spin-Dependent Phenomena in Inelastic Electron-Atom Collisions
- I. Introduction
- II. Exchange Effects in Inelastic Collisions between Electrons and Light Atoms
- III. Excitation of Intermediate and Heavy Atoms: Spin Polarization and Asymmetry Studies
- IV. Influence of Spin-Dependent Interactions on Coherence Parameters
- V. Excitation of Heavy Atoms by Polarized Electrons: Stokes Parameter Analysis
- VI. Electron-Photon Coincidence Experiments with Polarized Electrons
- VII. Ionization
- Appendix A
- Appendix B
- References
- Chapter 5. The Reduced Potential Curve Method for Diatomic Molecules and Its Applications
- I. Introduction
- II. Methods for Construction of Potential Curves
- III. Reduced (Internuclear) Potential of Diatomic Molecules
- IV. Applications of RPC Method
- V. Comments on Some Misunderstandings about the RPC Method
- VI. Conclusions
- References
- Chapter 6. The Vibrational Excitation of Molecules by Electron Impact
- I. Introduction
- II. Theoretical Considerations
- III. Applications and Comparison with Experiment
- References
- Chapter 7. Vibrational and Rotational Excitation in Molecular Collisions
- I. Introduction
- II. Theoretical Methods
- III. Experimental Techniques
- IV. Studies of Rotational Scattering Cross Sections
- V. Studies of Vibrational Excitation
- VI. Summary of Detailed Scattering Experiments and Concluding Remarks
- References
- Chapter 8. Spin Polarization of Atomic and Molecular Photoelectrons
- I. Introduction
- II. Theory of Spin Polarization Phenomena in Atoms
- III. Comparison with Experiment and Applications
- IV. Spin Polarization of Molecular Photoelectrons
- V. Conclusion
- References
- Index
- Contents of Previous Volumes
