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The Airborne Microparticle, 2 Pts.

Its Physics, Chemistry, Optics, and Transport Phenomena
BuchKartoniert, Paperback
834 Seiten
Englisch
Springererschienen am06.11.20122002
It has been thirty years since one of the authors (EJD) began a collaboration with Professor Milton Kerker at Clarkson University in Potsdam, New York using light scattering methods to study aerosol processes.mehr
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EUR223,63
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Produkt

KlappentextIt has been thirty years since one of the authors (EJD) began a collaboration with Professor Milton Kerker at Clarkson University in Potsdam, New York using light scattering methods to study aerosol processes.
Details
ISBN/GTIN978-3-642-62806-1
ProduktartBuch
EinbandartKartoniert, Paperback
Verlag
Erscheinungsjahr2012
Erscheinungsdatum06.11.2012
Auflage2002
Seiten834 Seiten
SpracheEnglisch
Gewicht627 g
IllustrationenXIV, 834 p.
Artikel-Nr.29948785

Inhalt/Kritik

Inhaltsverzeichnis
1 Background.- 1.1 Introduction.- 1.2 Light Scattering.- 1.3 Microparticle Transport Phenomena.- 1.4 Transport in the Transition Regime.- 1.5 Particle Charge.- 1.6 Applications and Adaptations of MODE.- 1.7 Particle Levitation Instrumentation.- 1.8 The Vibrating Orifice Generator.- 1.9 Applications of Single Particle Devices.- 1.10 References.- 2 Particle Levitation.- 2.1 Introduction to Levitation Phenomena.- 2.2 Electrostatic Balances.- 2.3 Electrodynamic Balances.- 2.4 Principles of Electrodynamic Trapping.- 2.5 EDB Electric Fields.- 2.6 Particle Stability in an EDB.- 2.7 Nonhyperboloidal Balances.- 2.8 Optical Levitation.- 2.9 Acoustic Levitation.- 2.10 References.- 3 Elastic Light Scattering.- 3.1 Introduction.- 3.2 Maxwell Equations.- 3.3 Dipole Radiation.- 3.4 Cross Sections and Radiation Pressure.- 3.5 Rayleigh Scattering.- 3.6 Electromagnetic Theory.- 3.7 Coupled Dipole Theory.- 3.8 Generalized Lorenz-Mie Theory.- 3.9 The T-matrix Method.- 3.10 Geometrical Optics.- 3.11 Resonances.- 3.12 References.- 4 Basic Single Particle Measurements.- 4.1 Force Measurement.- 4.2 Aerodynamic Drag.- 4.3 Levitation Characteristics.- 4.4 Radiometric and Phoretic Forces.- 4.5 Mass Measurement.- 4.6 Aerodynamic Size Measurement.- 4.7 Optical Size.- 4.8 Charge Measurement.- 4.9 Photoelectric Work Function.- 4.10 References.- 5 Continuum Transport Processes.- 5.1 Transport Regimes.- 5.2 Thermal Energy Equation.- 5.3 Convective Diffusion Equation.- 5.4 Equations of Motion.- 5.5 Heat Transfer.- 5.6 Mass Transfer.- 5.7 Convective Transport Processes.- 5.8 References.- 6 Non-Continuum Processes.- 6.1 Introduction.- 6.2 Statistical Mechanics.- 6.3 Collision Processes.- 6.4 The Boltzmann Equation.- 6.5 The Non-Uniform Gas.- 6.6 The Free-Molecule Regime.- 6.7 The Transition Regime.- 6.8 References.- 7 Thermodynamic and Transport Properties.- 7.1 Droplet Thermodynamics.- 7.2 Single Component Systems.- 7.3 Multicomponent Systems.- 7.4 Non-aqueous Systems Activity Coefficient Measurement.- 7.5 Partially Miscible Systems.- 7.6 References.- 8 Inelastic Light Scattering.- 8.1 Introduction.- 8.2 Raman Scattering: Classical Description.- 8.3 Quantum Mechanical Description.- 8.4 Absorption and Emission of Radiation.- 8.5 Nonlinear Processes.- 8.6 Particle Specific Effects.- 8.7 References.- 9 Spectroscopies and Mass Spectrometry.- 9.1 Spectroscopic and Spectrometric Techniques.- 9.2 Photothermal Spectroscopies.- 9.3 Phase Fluctuation Optical Heterodyning.- 9.4 Photothermal Modulation.- 9.5 Photophoretic Spectroscopy.- 9.6 Linear Raman Spectroscopy.- 9.7 Nonlinear Spectroscopic Methods.- 9.8 Laser Induced Fluorescence.- 9.9 Laser Induced Incandescence.- 9.10 Mass Spectrometry.- 9.11 References.- 10 Particle Chemical Reactions.- 10.1 Introduction.- 10.2 Atmospheric Particles.- 10.3 Ozone Depletion.- 10.4 Desulfurization.- 10.5 Microparticle Reactors.- 10.6 Microparticle Reaction Measurements.- 10.7 Microparticle Production.- 10.8 Gas/Droplet Reaction Rate Theory.- 10.9 References.- 11 Phoretic and Radiometric Phenomena.- 11.1 Introduction to Phoretic Forces.- 11.2 Radiation Force.- 11.3 Continuum and Near-Continuum Transport.- 11.4 Phoretic Forces in the Near-Continuum Regime.- 11.5 Photophoresis in the Near-Continuum Regime.- 11.6 Thermophoresis.- 11.7 Phoretic Forces in the Knudsen Regime.- 11.8 References.mehr

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