Interaction of Gases with Surfaces
Bogdanov, Alexander V.
Interaction of Gases with Surfaces Detailed Description of Elementary Processes and Kinetics / [electronic resource] : by Alexander V. Bogdanov, German V. Dubrovskiy, Michael P. Krutikov, Dmitry V. Kulginov, Victor M. Strelchenya. - XIV, 133 p. online resource. - Lecture Notes in Physics Monographs, 25 0940-7677 ; . - Lecture Notes in Physics Monographs, 25 .
Inelastic Scattering of Molecules from Crystal Surfaces -- General Semiclassical Theory of Gas—Surface Scattering -- Dynamic Structural Factors of Phonon Scattering -- Multiphonon Scattering -- Scattering from Rough Surfaces -- Concluding Remarks on Quasiclassical Approach to Gas-Surface Scattering -- Microscopic Models of Detailed Kinetics of Adsorption -- Microscopic Models of Detailed Kinetics -- Physical Models of Elementary Processes, Transition Probabilities, and Kinetic Coefficients -- Different Regimes of Adsorption Kinetics -- Equilibrium and Quasiequilibrium Solutions to the LG Model -- Thermodynamical Description of Adsorbed Layer Dynamics -- Phenomenological Models of Thin Film Growth at Solid Surfaces -- Classical Model of Nucleation and Nuclei Growth at Substrate -- Lateral Growth of Island Films -- Calculations of Thin Films Growth Kinetics -- Kinetic Boundary Condition (KBC) and Inverse Scattering Problem -- KBC for Distribution Function in Gas Phase -- Inverse Scattering Problem in Gas-Surface Interaction.
Interface phenomena are most fascinating because of the mixing of different scales and the interference of diverse physical processes. This makes it necessary to use different levels of description: microscopic, kinetic, and gas-dynamical. A unified quasiclassical approach is used to answer practical questions dealing with inelastic gas-surface scattering, the kinetics of adsorption layers, the evolution of inhomogeneities and defects at the surface, the Knudsen layer, the development of boundary conditions on the kinetic and gas-dynamical levels, the determination of exchange and slip coefficients, and so on.
9783540491071
10.1007/978-3-540-49107-1 doi
Surfaces (Physics).
Crystallography.
Mathematical physics.
Atomic, Molecular, Optical and Plasma Physics.
Surfaces and Interfaces, Thin Films.
Crystallography and Scattering Methods.
Mathematical Methods in Physics.
Numerical and Computational Physics, Simulation.
Fluid- and Aerodynamics.
QC170-197 QC717.6-718.8
539
Interaction of Gases with Surfaces Detailed Description of Elementary Processes and Kinetics / [electronic resource] : by Alexander V. Bogdanov, German V. Dubrovskiy, Michael P. Krutikov, Dmitry V. Kulginov, Victor M. Strelchenya. - XIV, 133 p. online resource. - Lecture Notes in Physics Monographs, 25 0940-7677 ; . - Lecture Notes in Physics Monographs, 25 .
Inelastic Scattering of Molecules from Crystal Surfaces -- General Semiclassical Theory of Gas—Surface Scattering -- Dynamic Structural Factors of Phonon Scattering -- Multiphonon Scattering -- Scattering from Rough Surfaces -- Concluding Remarks on Quasiclassical Approach to Gas-Surface Scattering -- Microscopic Models of Detailed Kinetics of Adsorption -- Microscopic Models of Detailed Kinetics -- Physical Models of Elementary Processes, Transition Probabilities, and Kinetic Coefficients -- Different Regimes of Adsorption Kinetics -- Equilibrium and Quasiequilibrium Solutions to the LG Model -- Thermodynamical Description of Adsorbed Layer Dynamics -- Phenomenological Models of Thin Film Growth at Solid Surfaces -- Classical Model of Nucleation and Nuclei Growth at Substrate -- Lateral Growth of Island Films -- Calculations of Thin Films Growth Kinetics -- Kinetic Boundary Condition (KBC) and Inverse Scattering Problem -- KBC for Distribution Function in Gas Phase -- Inverse Scattering Problem in Gas-Surface Interaction.
Interface phenomena are most fascinating because of the mixing of different scales and the interference of diverse physical processes. This makes it necessary to use different levels of description: microscopic, kinetic, and gas-dynamical. A unified quasiclassical approach is used to answer practical questions dealing with inelastic gas-surface scattering, the kinetics of adsorption layers, the evolution of inhomogeneities and defects at the surface, the Knudsen layer, the development of boundary conditions on the kinetic and gas-dynamical levels, the determination of exchange and slip coefficients, and so on.
9783540491071
10.1007/978-3-540-49107-1 doi
Surfaces (Physics).
Crystallography.
Mathematical physics.
Atomic, Molecular, Optical and Plasma Physics.
Surfaces and Interfaces, Thin Films.
Crystallography and Scattering Methods.
Mathematical Methods in Physics.
Numerical and Computational Physics, Simulation.
Fluid- and Aerodynamics.
QC170-197 QC717.6-718.8
539