Gaseous ion mobility, diffusion, and reaction
著者
書誌事項
Gaseous ion mobility, diffusion, and reaction
(Springer series on atomic, optical, and plasma physics, v. 105)
Springer, c2018
大学図書館所蔵 全2件
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注記
Includes bibliographical references and index
内容説明・目次
内容説明
This book is about the drift, diffusion, and reaction of ions moving through gases under the influence of an external electric field, the gas temperature, and the number density. While this field was established late in the 19th century, experimental and theoretical studies of ion and electron swarms continue to be important in such varied fields as atomic and molecular physics, aeronomy and atmospheric chemistry, gaseous electronics, plasma processing, and laser physics. This book follows in the rigorous tradition of well-known older books on the subject, while at the same time providing a much-needed overview of modern developments with a focus on theory. Graduate students and researchers new to this field will find this book an indispensable guide, particularly those involved with ion mobility spectrometry and the use of ion transport coefficients to test and improve ab initio ion-neutral interaction potentials. Established researchers and academics will find in this book a modern companion to the classic references.
目次
Tentative Table of Contents. 1/1/18
Preface
Ch. 1: Introduction
1. Definition and Importance of Swarms
2. Air and Vacuum Pumps
3. Static Electricity
4. Current Electricity
5. Faraday's Laws of Electricity
6. Electrical Conduction
7. Ions
8. Ion Swarms, 1896-1928
9. Ion Diffusion, 1855-1926
10. Electron Swarms, 1900-1922
11. Early Kinetic Theory, 1905-1931
12. Mass Spectrometers
13. Ion Swarms, 1928-1960
14. Electron Swarms, 1922-1965
15. Electron and Ion Swarms, 1960-1975
16. Atomic Ion-Atom Kinetic Theory
17. Ion-Neutral Reactions
18. Improved Kinetic Theories
19. Generalized Einstein Relations
20. Transport with Molecular Systems
Ch. 2: Experiments and Elementary Theory
1. General Assumptions
2. Basics of Drift Tubes
3. Drift-Tube Mass Spectrometers
4. Plasma Chromatographs/Ion Mobility Spectrometers
5. Qualitative Momentum-Transfer Theories
Ch. 3: Momentum-Transfer Theory
1. Essentials of Momentum-Transfer Theory
2. Relative Speed
3. Cross Sections
(a) Momentum Transfer in a Collision
(b) Average Momentum Transfer
4. Average Ion Momentum Lost in a Collision
(a) Average Drift Speed between Collision
(b) Classification of Collisions
(c) Archetype Collisions
5. Fundamental Ion Mobility Equation
6. Discussion
Ch. 4: The Boltzmann Equation
1. General Form
2. The Non-Reactive Collision Term
3. Reactive Collision Terms
4. Properties of an Ion Ensemble
5. Quantum-Mechanical Effects
6. The Maxwell Model
7. Rate Equation of Continuity
Ch. 5: Moment Method for Solving the Boltzmann Equation
1. Introduction
2. Cautionary Notes about Moment Methods
3. General Moment Equations
4. Successive Approximations
5. Solutions by the Method of Weighted Residuals
6. Basis Functions in General
7. One-Temperature Basis Functions
8. Two-Temperature Basis Functions
9. Matrix Elements in the Two-Temperature Method
10. Successive Approximations to the Mobility, Diffusion and Reaction-Rate Coefficients
11. Three-Temperature Basis Functions
12. Three-Temperature Numerical Results
Ch. 6: Gram-Charlier Approach to Ion-Molecule Reactions
Ch. 7: Connections with Atomic Ion-Atom Interaction Potentials
1. Ab Initio Ion-Neutral Interaction Potentials
2. Transport Cross Sections and Computer Program PC
3. Kinetic Theory using Gram-Charlier Approach and Computer Program GC
4. Zero-Field Mobilities
5. Field-Dependent Mobilities
6. Status of Tests of Interaction Potentials
Ch. 8: Molecular Ion and Neutrals
1. Visualization of Atomic Ion Velocity Distribution Functions
2. Implications for Ion-Molecule Reactions in the Upper Atmosphere
3. Extensions of the Boltzmann Equation
4. Ab Initio Calculations for Atomic Ions in Diatomic Neutrals
5. Ab Initio Calculations for Diatomic Ions in Atomic Neutrals
6. A Simple Way Forward: The Monchick-Mason Approximation
7. Beyond the Monchick-Mason Approximation
Ch. 9: Summary and Prognosis
Appendix A: Mathematics
Index
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