Nanoclusters and Microparticles in Gases and Vapors.

Mostrar otras versiones (1)

Research of processes involving Nanoclusters and Microparticleshas been developing fastin many fields of rescent research, in particular in materials science. To stay at the cutting edge of this development, a sound understanding of the processes is needed. In this work, several processes involving...

Descripción completa

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Smirnov, Boris M.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Berlin : De Gruyter, 2012.
Colección:De Gruyter studies in mathematical physics.
Temas:
Ionized gases.
Microclusters.
Vapors > Microstructure.
Kinetic theory of gases.
Gaz ionisés.
Microagrégats.
Vapeurs > Microstructure.
Théorie cinétique des gaz.
SCIENCE > Mechanics > General.
Ionized gases
Kinetic theory of gases
Microclusters
Dampf
Transportprozess
Gas
Cluster
Mikropartikel
Teilchenwachstum
Clusters.
Gases.
Nanoclusters.
Nanoparticles.
Vapors.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Preface; List of figures; 1 Introduction; I Properties of small particles and their behavior in gases; 2 Nanoclusters and microparticles in gases; 2.1 Gas with small particles as physical object; 2.2 Small particles in the Earth atmosphere; 2.3 Methods of removal of dust particles from gas; 2.4 Artificial small particles in gas; 2.5 Electric processes in earth atmosphere; 2.6 Dusty plasma of solar system; 2.7 Problems; 3 Cluster properties and their modeling; 3.1 Cluster structures; 3.2 Phase transition in cluster; 3.3 Analytical and computer modeling of clusters.
  • 3.4 The liquid drop model for clusters3.5 Spectral properties of clusters; 3.6 Problems; 4 Dynamics of collisions in buffer gas involving clusters; 4.1 Hard sphere model in atomic physics; 4.2 Models of atom collisions with cluster or small particle; 4.3 Analytic and computer methods in cluster physics; 4.4 Problems; II Processes involving small particles in gases; 5 Transport phenomena in gases involving small particles; 5.1 Cluster motion in gas in force field; 5.2 Mobility of charged clusters in gas in strong electric field; 5.3 Diffusion of clusters in gas; 5.4 Problems.
  • 6 Particle motion in gas flows6.1 Relaxation of particle velocity in gas flow; 6.2 Gas flow in tubes; 6.3 Drift of particles in gas flows; 6.4 Particle departure on periphery of gas flow; 6.5 Problems; 7 Processes in buffer gas on surface of small particles; 7.1 Equilibrium of metal cluster with parent vapor in buffer gas; 7.2 Character of cluster growth due to attachment of free atoms; 7.3 Quenching of metastable atoms on cluster surface; 7.4 Character of combustion of small particles; 7.5 Kinetic and diffusion regime of particle combustion.
  • 7.6 Recombination of charged clusters in buffer gas7.7 Problems; 8 Charging of small particles in ionized gases; 8.1 Particle charging in dense buffer ionized gas; 8.2 Particle charging in dense gas discharge plasma; 8.3 Double layer of gas discharge; 8.4 Particle charging in rarefied ionized gas with free ions; 8.5 Particle charging in rarefied ionized gas with trapped ions; 8.6 Particle charging and screening in rarefied ionized gas; 8.7 The charge distribution of particles in ionized gas; 8.8 Charging of small clusters in ionized gas; 8.9 Problems.
  • 9 Growth of clusters and small particles in buffer gas9.1 Types of nucleation processes; 9.2 Kinetic regime of cluster coagulation; 9.3 Diffusion regime of cluster coagulation; 9.4 Cluster coagulation in external field; 9.5 Ostwald ripening; 9.6 Method of molecular dynamics in nucleation processes; 9.7 Problems; 10 Structures formed in aggregation of solid particles; 10.1 Fractal aggregates; 10.2 Growth of fractal aggregates; 10.3 Growth of particle structures in external electric fields; 10.4 Growth of elongated particle structures in electric field; 10.5 Aerogels; 10.6 Problems.

Ejemplares similares