Accelerators

Name: Accelerators
Brand: Academic Press
Price: 54.95 EUR
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Patrick Richard(Editor)

Academic Press

Published on 27. November 1980

640 pages

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978-0-08-086001-5 (ISBN)

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Front Cover
Atomic Physics Accelerators
Copyright Page
Contents
Contributors
Foreword
Preface
Volumes in Series
Chapter 1. Introduction
1.1. Atomic Collisions with Accelerated Ions
1.2. Accelerated Ions for Atomic Collisions
Chapter 2. Energy Loss of High-Velocity Ions in Matter
2.1. Introduction
2.2. General Concepts of Energy Loss
2.3. Energy Loss Theories: General Background
2.4. Experimental Methods on Energy Loss
2.5. Current Problems in Stopping Cross Sections
Chapter 3. Charge Equilibration of High-Velocity Ions in Matter
3.1. Introduction
3.2. Fundamental Charge Exchange Processes
3.3. Experimental Techniques and Data Analysis
3.4. Electron Capture
3.5. Electron Loss
3.6. Equilibrium Charge-State Distributions
3.7. Average Equilibrium Charge States
3.8. Density Effects and Excited States
3.9. Atomic Transitions and Charge Equilibration in Solids
3.10. Radiative Electron Capture
Chapter 4. Inelastic Energy-Loss Measurements in Single Collisions
4.1. Introduction
4.2. Binary Encounters
4.3. Experimental Method of Determining Q
4.4. Data Reduction and Comparison with Auger Electron/X-Ray Yields
Chapter 5. Target Ionization and X-Ray Production for Ions Incident upon Solid Targets
5.1. Introduction
5.2. Definitions of Parameters
5.3. Theoretical Models of Inner-Shell Ionization
5.4. General Experimental Consideration
5.5. X-Ray Production Cross-Section Measurements
Chapter 6. Charge Dependence of Atomic Inner-Shell Cross Sections
6.1. Introduction
6.2. Conditions for Measuring Charge-Dependent Collision Processes
6.3. Projectile Charge Dependence of Target Inner-Shell Cross Sections
6.4. Fluorescence Yield Effects in High-Charge Collisions
6.5. Charge Dependence of Projectile Cross Sections.
6.6. Summary
Chapter 7. Coincidence Experiments for Studying Impact-Parameter-Dependent and Charge-Changing Processes
7.1. Introduction
7.2. Impact Parameter Dependence of Inner-Shell Vacancy Production.
7.3. Coincidence Experiments Involving Charge-Analyzed Reaction Products
Chapter 8. Ion-Induced X-Ray Spectroscopy
8.1. Introduction
8.2. Detectors and Targets
8.3. Multiple Inner-Shell Vacancy Production
8.4. Spectroscopy of Individual States
8.5. Single-Collision Phenomena
8.6. Chemical Effects
8.7. Multiple-Collision Phenomena
Chapter 9. lon-Induced Auger Electron Spectroscopy
9.1. Introduction
9.2. Techniques for Production and Detection of Auger Electrons
9.3. Studies of Ion-Atom Collision Phenomena Using Auger Spectroscopy
Chapter 10. Radiative and Auger Beam-Foil Measurements
10.1. Introduction
10.2. Experimental Arrangements
10.3. Source Characteristics
10.4. Beam-Foil Spectra
10.5. Lifetimes
10.6. Quantum Beat Phenomena
10.7. Applications of Beam-Foil Results
Author Index
Subject Index

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