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Auteur S. A. Safran
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Faire une suggestion Affiner la rechercheStatistical thermodynamics of surfaces, interfaces, and membranes / S. A. Safran
Titre : Statistical thermodynamics of surfaces, interfaces, and membranes Type de document : document imprimé Auteurs : S. A. Safran, Auteur ; I. Rehovot, Auteur Editeur : Boulder, CO : Westview Press Année de publication : 2003 Collection : Frontiers in physics Importance : 296 p. ISBN/ISSN/EAN : 0-8133-4079-9 Note générale : Paperback
Langues : Français (fre) Index. décimale : 05.70 Thermodynamics Résumé : Understanding the structural and thermodynamic properties of surfaces, interfaces and membranes is important for both fundamental and practical reasons. This text introduces the reader to several theoretical methods that are useful in applications of statistical mechanics to materials. Table des matières : Mixtures and Interfaces: Complex Materials and Interfaces; Review of Classical Statistical Mechanics; Phase Separation in Binary Mixtures; Differential Geometry of Surfaces; Review of Hydrodynamics. Interfacial Tension: Free Energy of Surfaces and Interfaces; Surface/Interfacial Tension Theory; Surface-Active Agents. Fluctuations of Interfaces: Free Energy of a Fluctuating Interface; Thermal Fluctuations of Interfaces; Capillary Instabilities of Interfaces; Roughening Transition of Solid Surfaces. Wetting of Interfaces: Equilibrium; Long-Range Interactions - Macroscopic Theory; Fluctuations of the Contact Line; Equilibrium - Microscopic Description; Dynamics of Wetting. Interactions of Rigid Interfaces: Molecular Interactions; Van der Waals Interaction Energies; Continuum Theory of Van der Waals Forces; Electrostatic Interactions; Solute-Induced Interactions. Flexible Interfaces: Fluid Membranes and Surfactants; Curvature Elasticity of Fluid Membranes; Curvature Moduli Fluctuations of Fluid Membranes; Interactions of Fluid Membranes. Colloidal Dispersions: Dispersions of Interacting Particles; Colloid Interactions - DLVO Theory; Long-Range Electrostatic Interactions; Steric Interactions - Polymer Adsorption Structure of Colloidal Aggregates. Self-Absorbing Interfaces: Micelles; Vesicles; Microemulsions; Spongelike and Bicontinuous Phases.
Note de contenu : Réimpression de la 1ère édition de 1994
Statistical thermodynamics of surfaces, interfaces, and membranes [document imprimé] / S. A. Safran, Auteur ; I. Rehovot, Auteur . - Westview Press, 2003 . - 296 p.. - (Frontiers in physics) .
ISBN : 0-8133-4079-9
Paperback
Langues : Français (fre)
Index. décimale : 05.70 Thermodynamics Résumé : Understanding the structural and thermodynamic properties of surfaces, interfaces and membranes is important for both fundamental and practical reasons. This text introduces the reader to several theoretical methods that are useful in applications of statistical mechanics to materials. Table des matières : Mixtures and Interfaces: Complex Materials and Interfaces; Review of Classical Statistical Mechanics; Phase Separation in Binary Mixtures; Differential Geometry of Surfaces; Review of Hydrodynamics. Interfacial Tension: Free Energy of Surfaces and Interfaces; Surface/Interfacial Tension Theory; Surface-Active Agents. Fluctuations of Interfaces: Free Energy of a Fluctuating Interface; Thermal Fluctuations of Interfaces; Capillary Instabilities of Interfaces; Roughening Transition of Solid Surfaces. Wetting of Interfaces: Equilibrium; Long-Range Interactions - Macroscopic Theory; Fluctuations of the Contact Line; Equilibrium - Microscopic Description; Dynamics of Wetting. Interactions of Rigid Interfaces: Molecular Interactions; Van der Waals Interaction Energies; Continuum Theory of Van der Waals Forces; Electrostatic Interactions; Solute-Induced Interactions. Flexible Interfaces: Fluid Membranes and Surfactants; Curvature Elasticity of Fluid Membranes; Curvature Moduli Fluctuations of Fluid Membranes; Interactions of Fluid Membranes. Colloidal Dispersions: Dispersions of Interacting Particles; Colloid Interactions - DLVO Theory; Long-Range Electrostatic Interactions; Steric Interactions - Polymer Adsorption Structure of Colloidal Aggregates. Self-Absorbing Interfaces: Micelles; Vesicles; Microemulsions; Spongelike and Bicontinuous Phases.
Note de contenu : Réimpression de la 1ère édition de 1994
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Code-barres Cote Support Localisation Section Disponibilité BA0122 05.70 SAF Document imprimé IRPHE Bibliothèque de l'IRPHE Sorti jusqu'au 25/05/2007 Statistical thermodynamics of surfaces, interfaces, and membranes / S. A. Safran
Titre : Statistical thermodynamics of surfaces, interfaces, and membranes Type de document : document imprimé Auteurs : S. A. Safran, Auteur ; I. Rehovot, Auteur Mention d'édition : Rep. ed. Editeur : Westview Press Année de publication : 2003 Collection : Frontiers in physics Importance : 296 p. ISBN/ISSN/EAN : 0-8133-4079-9 Note générale : Paperback
Langues : Français (fre) Index. décimale : 68 Surfaces and interfaces Résumé : Understanding the structural and thermodynamic properties of surfaces, interfaces and membranes is important for both fundamental and practical reasons. This text introduces the reader to several theoretical methods that are useful in applications of statistical mechanics to materials. Table des matières : Mixtures and Interfaces: Complex Materials and Interfaces; Review of Classical Statistical Mechanics; Phase Separation in Binary Mixtures; Differential Geometry of Surfaces; Review of Hydrodynamics. Interfacial Tension: Free Energy of Surfaces and Interfaces; Surface/Interfacial Tension Theory; Surface-Active Agents. Fluctuations of Interfaces: Free Energy of a Fluctuating Interface; Thermal Fluctuations of Interfaces; Capillary Instabilities of Interfaces; Roughening Transition of Solid Surfaces. Wetting of Interfaces: Equilibrium; Long-Range Interactions - Macroscopic Theory; Fluctuations of the Contact Line; Equilibrium - Microscopic Description; Dynamics of Wetting. Interactions of Rigid Interfaces: Molecular Interactions; Van der Waals Interaction Energies; Continuum Theory of Van der Waals Forces; Electrostatic Interactions; Solute-Induced Interactions. Flexible Interfaces: Fluid Membranes and Surfactants; Curvature Elasticity of Fluid Membranes; Curvature Moduli Fluctuations of Fluid Membranes; Interactions of Fluid Membranes. Colloidal Dispersions: Dispersions of Interacting Particles; Colloid Interactions - DLVO Theory; Long-Range Electrostatic Interactions; Steric Interactions - Polymer Adsorption Structure of Colloidal Aggregates. Self-Absorbing Interfaces: Micelles; Vesicles; Microemulsions; Spongelike and Bicontinuous Phases.
Note de contenu : Réimpression de la 1ère édition de 1994
Statistical thermodynamics of surfaces, interfaces, and membranes [document imprimé] / S. A. Safran, Auteur ; I. Rehovot, Auteur . - Rep. ed. . - Westview Press, 2003 . - 296 p.. - (Frontiers in physics) .
ISBN : 0-8133-4079-9
Paperback
Langues : Français (fre)
Index. décimale : 68 Surfaces and interfaces Résumé : Understanding the structural and thermodynamic properties of surfaces, interfaces and membranes is important for both fundamental and practical reasons. This text introduces the reader to several theoretical methods that are useful in applications of statistical mechanics to materials. Table des matières : Mixtures and Interfaces: Complex Materials and Interfaces; Review of Classical Statistical Mechanics; Phase Separation in Binary Mixtures; Differential Geometry of Surfaces; Review of Hydrodynamics. Interfacial Tension: Free Energy of Surfaces and Interfaces; Surface/Interfacial Tension Theory; Surface-Active Agents. Fluctuations of Interfaces: Free Energy of a Fluctuating Interface; Thermal Fluctuations of Interfaces; Capillary Instabilities of Interfaces; Roughening Transition of Solid Surfaces. Wetting of Interfaces: Equilibrium; Long-Range Interactions - Macroscopic Theory; Fluctuations of the Contact Line; Equilibrium - Microscopic Description; Dynamics of Wetting. Interactions of Rigid Interfaces: Molecular Interactions; Van der Waals Interaction Energies; Continuum Theory of Van der Waals Forces; Electrostatic Interactions; Solute-Induced Interactions. Flexible Interfaces: Fluid Membranes and Surfactants; Curvature Elasticity of Fluid Membranes; Curvature Moduli Fluctuations of Fluid Membranes; Interactions of Fluid Membranes. Colloidal Dispersions: Dispersions of Interacting Particles; Colloid Interactions - DLVO Theory; Long-Range Electrostatic Interactions; Steric Interactions - Polymer Adsorption Structure of Colloidal Aggregates. Self-Absorbing Interfaces: Micelles; Vesicles; Microemulsions; Spongelike and Bicontinuous Phases.
Note de contenu : Réimpression de la 1ère édition de 1994
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Code-barres Cote Support Localisation Section Disponibilité BA0101 68 SAF Document imprimé IRPHE Bibliothèque du Master Disponible Europhysics letters, Vol.10 No.1. Fingering instabilities of driven spreading films / S. M. Troian
in Europhysics letters
Titre de série : Europhysics letters, Vol.10 No.1 Titre : Fingering instabilities of driven spreading films Type de document : articles et extraits Auteurs : S. M. Troian, Auteur ; E. Herbolzeimer, Auteur ; J. F. Joanny, Auteur ; S. A. Safran, Auteur Année de publication : 1989 Importance : p.25-30 Langues : Français (fre)
in Europhysics letters
Europhysics letters, Vol.10 No.1. Fingering instabilities of driven spreading films [articles et extraits] / S. M. Troian, Auteur ; E. Herbolzeimer, Auteur ; J. F. Joanny, Auteur ; S. A. Safran, Auteur . - 1989 . - p.25-30.
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Code-barres Cote Support Localisation Section Disponibilité ART-8171-0 ART Document imprimé Bureau chercheur Bureau de Bossa Benjamin Disponible Journal of applied physics, Vol.60, No.1. Capillary instabilities in thin films. I. Energetics / David J. Srolovitz
in Journal of applied physics
Titre de série : Journal of applied physics, Vol.60, No.1 Titre : Capillary instabilities in thin films. I. Energetics Type de document : articles et extraits Auteurs : David J. Srolovitz, Auteur ; S. A. Safran, Auteur Année de publication : 1986 Importance : p. 247-254 Langues : Anglais (eng) Index. décimale : 68 Surfaces and interfaces Résumé : A stability theory is presented which describes the conditions under which thin films rupture. It is found that holes in the film will either grow or shrink, depending on whether their initial radius is larger or smaller than a critical value. If the holes grow large enough, they impinge to form islands; the size of which are determined by the surface energies. The formation of grooves where the grain boundary meets the free surface is a potential source of holes which can lead to film rupture. Equilibrium grain boundary groove depths are calculated for finite grain sizes. Comparison of groove depth and film thickness yields microstructural conditions for film rupture. In addition, pits which form at grain boundary vertices, where three grains meet, are another source of film instability En ligne : http://dx.doi.org/10.1063/1.337689
in Journal of applied physics
Journal of applied physics, Vol.60, No.1. Capillary instabilities in thin films. I. Energetics [articles et extraits] / David J. Srolovitz, Auteur ; S. A. Safran, Auteur . - 1986 . - p. 247-254.
Langues : Anglais (eng)
Index. décimale : 68 Surfaces and interfaces Résumé : A stability theory is presented which describes the conditions under which thin films rupture. It is found that holes in the film will either grow or shrink, depending on whether their initial radius is larger or smaller than a critical value. If the holes grow large enough, they impinge to form islands; the size of which are determined by the surface energies. The formation of grooves where the grain boundary meets the free surface is a potential source of holes which can lead to film rupture. Equilibrium grain boundary groove depths are calculated for finite grain sizes. Comparison of groove depth and film thickness yields microstructural conditions for film rupture. In addition, pits which form at grain boundary vertices, where three grains meet, are another source of film instability En ligne : http://dx.doi.org/10.1063/1.337689 Réservation
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Code-barres Cote Support Localisation Section Disponibilité ART-1986247 68 SRO Document imprimé Bureau chercheur Bureau de FRISCH, Thomas Disponible Journal of applied physics, Vol.60, No.1. Capillary instabilities in thin films. II. Kinetics / David J. Srolovitz
in Journal of applied physics
Titre de série : Journal of applied physics, Vol.60, No.1 Titre : Capillary instabilities in thin films. II. Kinetics Type de document : articles et extraits Auteurs : David J. Srolovitz, Auteur ; S. A. Safran, Auteur Année de publication : 1986 Importance : p. 255-260 Langues : Anglais (eng) Index. décimale : 68 Surfaces and interfaces Résumé : We consider the kinetic evolution of perturbations to thin films. Since all small (nonsubstrate intersecting) perturbations to the film surface decay, we consider the evolution of large perturbations, in the form of a single hole which exposes the substrate. For large holes, the hole radius increases at a constant rate under the assumption of evaporation/condensation kinetics. When the dominant transport mode is surface diffusion, large holes grow with a rate proportional to t–3/4[log3(t/ rho4c) ]. Small holes with a radii less than rhoc shrink, where rhoc is the film thickness divided by the tangent of the equilibrium wetting angle. The growth of these holes eventually leads to hole impingement which ruptures the film, creating a set of disconnected islands. The relaxation time for these islands to go to their equilibrium shape and size ( rhoeq) scales as rho2eq or rho4eq for evaporation/condensation or surface diffusion kinetics, respectively. En ligne : http://dx.doi.org/10.1063/1.337691
in Journal of applied physics
Journal of applied physics, Vol.60, No.1. Capillary instabilities in thin films. II. Kinetics [articles et extraits] / David J. Srolovitz, Auteur ; S. A. Safran, Auteur . - 1986 . - p. 255-260.
Langues : Anglais (eng)
Index. décimale : 68 Surfaces and interfaces Résumé : We consider the kinetic evolution of perturbations to thin films. Since all small (nonsubstrate intersecting) perturbations to the film surface decay, we consider the evolution of large perturbations, in the form of a single hole which exposes the substrate. For large holes, the hole radius increases at a constant rate under the assumption of evaporation/condensation kinetics. When the dominant transport mode is surface diffusion, large holes grow with a rate proportional to t–3/4[log3(t/ rho4c) ]. Small holes with a radii less than rhoc shrink, where rhoc is the film thickness divided by the tangent of the equilibrium wetting angle. The growth of these holes eventually leads to hole impingement which ruptures the film, creating a set of disconnected islands. The relaxation time for these islands to go to their equilibrium shape and size ( rhoeq) scales as rho2eq or rho4eq for evaporation/condensation or surface diffusion kinetics, respectively. En ligne : http://dx.doi.org/10.1063/1.337691 Réservation
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Code-barres Cote Support Localisation Section Disponibilité ART-1986255 68 SRO Document imprimé Bureau chercheur Bureau de FRISCH, Thomas Disponible