Nanoclusters and Microparticles in Gases and Vapors / / Boris M. Smirnov.
Various nanoclusters and microparticles are considered in excited and ionized gases, as well as various processes with their participation. The concepts of these processes were developed 50 - 100 years ago mostly for dense media, and basing on these concepts, we analyze these processes in gases in t...
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| Superior document: | Title is part of eBook package: De Gruyter DG Studies in Mathematical Physics eBook-Package |
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| VerfasserIn: | |
| Place / Publishing House: | Berlin ;, Boston : : De Gruyter, , [2012] ©2012 |
| Year of Publication: | 2012 |
| Idioma: | English |
| Series: | De Gruyter Studies in Mathematical Physics ,
6 |
| Acceso en liña: | |
| Descrición Física: | 1 online resource (249 p.) |
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| Other title: | Frontmatter -- Preface -- Contents -- List of figures -- Chapter 1. Introduction -- Part I. Properties of small particles and their behavior in gases -- Chapter 2. Nanoclusters and microparticles in gases -- Chapter 3. Cluster properties and their modeling -- Chapter 4. Dynamics of collisions in buffer gas involving clusters -- Part II. Processes involving small particles in gases -- Chapter 5. Transport phenomena in gases involving small particles -- Chapter 6. Particle motion in gas flows -- Chapter 7. Processes in buffer gas on surface of small particles -- Chapter 8. Charging of small particles in ionized gases -- Chapter 9. Growth of clusters and small particles in buffer gas -- Chapter 10. Structures formed in aggregation of solid particles -- Chapter 11. Conclusion -- Appendix A. Physical parameters -- Appendix B. Conversional factors -- Appendix C. Transport coefficients of atomic particles in gases -- Bibliography -- Index |
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| Summary: | Various nanoclusters and microparticles are considered in excited and ionized gases, as well as various processes with their participation. The concepts of these processes were developed 50 - 100 years ago mostly for dense media, and basing on these concepts, we analyze these processes in gases in two opposite regimes, so that in the kinetic regime surrounding atoms of a buffer gas do not partake in processesinvolving small particles, and the diffusion regime corresponds to a dense gas where interaction of small particles with a buffer gas subjects to laws of hydrodynamics. For calculation or estimation of the rates of these processes, we are based on the liquid drop model for small particles which was introduced in physics by N. Bohr about 80 years ago for the analysis of properties of atomic nuclei including the nuclear fusion and the hard sphere model (or the model of billiard balls) which was used by J. C. Maxwell 150 years ago and helped to create the kinetic theory of gases. These models along with the analysis of their accuracy allow one to study various processes, such as transport processes in gases involving small particles, charging of small particles in gases, chemical processes, atom attachment and quenching of excited atomic particles on the surface of a small particle, nucleation processes for small particles including coagulation, coalescence and growth of fractal aggregates, chain aggregates, fractal fibres and aerogels. Each analysis is finished by analytic formulas or simple models which allow us to calculate the rate of a certain real process with a known accuracy or to estimate this, and criteria of validity are given for these expressions obtained. Examples of real objects and processes involving small particles are analyzed. |
| Formato: | Mode of access: Internet via World Wide Web. |
| ISBN: | 9783110273991 9783110645309 9783110238570 9783110238518 9783110637212 9783110288995 9783110293722 9783110288926 |
| ISSN: | 2194-3532 ; |
| DOI: | 10.1515/9783110273991 |
| Acceso: | restricted access |
| Hierarchical level: | Monograph |
| Statement of Responsibility: | Boris M. Smirnov. |