Dissociative Recombination of Molecular Ions
£64.99
Part of Cambridge Molecular Science
- Authors:
- Mats Larsson, Stockholms Universitet
- Ann E. Orel, University of California, Davis
- Date Published: September 2012
- availability: Available
- format: Paperback
- isbn: 9781107407671
£
64.99
Paperback
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Dissociative recombination (DR) of molecular ions with electrons is a complex, poorly understood molecular process. Its critical role as a neutralising agent in the Earth's upper atmosphere is now well established and its occurrence in many natural and laboratory-produced plasma has been a strong motivation for studying the event. In this book theoretical concepts, experimental methodology and applications are united, revealing the governing principles behind the gas-phase reaction. The book takes the reader through the intellectual challenges posed, describing in detail dissociation mechanisms, dynamics, diatomic and polyatomic ions and related processes, including dissociative excitation, ion pair formation and photodissociation. With the final chapter dedicated to applications in astrophysics, atmospheric science, plasma physics and fusion research, this is a focused, definitive guide to a fundamental molecular process. The book will appeal to academics within physics, physical chemistry and related sciences.
Read more- Provides in a single source the relevant theory and research on dissociative recombination of molecular ions
- Contains a summary of the existing literature on the subject
- Outlines state-of-the-art research in the field
Reviews & endorsements
Review of the hardback: 'The authors display in-depth knowledge of the subject and have accomplished a definitive critical review of the theories, experiments and applications of DR reactions of molecular ions with electrons.' Materials World
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×Product details
- Date Published: September 2012
- format: Paperback
- isbn: 9781107407671
- length: 394 pages
- dimensions: 244 x 170 x 21 mm
- weight: 0.63kg
- availability: Available
Table of Contents
1. Introduction
2. Experimental methods
3. Theoretical methods
4. The H2+molecule
5. Diatomic hydride ions
6. Diatomic ions
7. The H3+ molecule
8. Polyatomic ions
9. Related processes
10. Applications.
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