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Produktbild: Structure and Dynamics of Surfaces I
Band 41

Structure and Dynamics of Surfaces I

Aus der Reihe Topics in Current Physics

Fr. 72.90

inkl. gesetzl. MwSt., Versandkostenfrei

Beschreibung

Produktdetails

Einband

Taschenbuch

Erscheinungsdatum

08.03.2012

Herausgeber

W. Schommers + weitere

Verlag

Springer Berlin

Seitenzahl

282

Maße (L/B/H)

24.4/17/1.7 cm

Gewicht

515 g

Auflage

Softcover reprint of the original 1st ed. 1986

Sprache

Englisch

ISBN

978-3-642-46576-5

Beschreibung

Produktdetails

Einband

Taschenbuch

Erscheinungsdatum

08.03.2012

Herausgeber

Verlag

Springer Berlin

Seitenzahl

282

Maße (L/B/H)

24.4/17/1.7 cm

Gewicht

515 g

Auflage

Softcover reprint of the original 1st ed. 1986

Sprache

Englisch

ISBN

978-3-642-46576-5

Herstelleradresse

Springer-Verlag KG
Sachsenplatz 4-6
1201 Wien
AT

Email: ProductSafety@springernature.com

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  • Produktbild: Structure and Dynamics of Surfaces I
  • 1. Introduction: The Relevance of the Structure and Dynamics of Surfaces.- 1.1 Structure of Surfaces.- 1.1.1 Effect of Relaxation on Electronic Surface Properties.- 1.1.2 Heterogeneous Catalysis.- 1.2 Dynamics of Surfaces.- 1.2.1 Surface Thermodynamic Functions in the Harmonic Approximation.- 1.2.2 Electron-Phonon Coupling.- 1.3 Conclusion and Outlook.- References.- 2. Experimental Methods for Determining Surface Structures and Surface Corrugations..- 2.1 Basic Physical Principles.- 2.2 Notation and Conventions.- 2.3 Surface Diffraction from Regular Gratings.- 2.3.1 Kinematical Interference Conditions for Surface Scattering.- 2.3.2 Experimental Methods Employing Diffraction from Gratings.- 2.4 Other Methods Based on Diffraction Effects.- 2.4.1 Surface Extended X-Ray Absorption Fine Structure (SEXAFS).- 2.4.2 Surface Extended Energy-Loss Fine Structure (SEELFS).- 2.4.3 Photoelectron Diffraction.- 2.4.4 Near-Edge X-Ray Absorption Fine Structure (NEXAFS).- 2.5 Microscopy Techniques with Atomic Resolution.- 2.5.1 Field Ion Microscopy.- 2.5.2 Scanning Tunneling Microscopy.- 2.5.3 High Resolution Transmission Electron Microscopy (TEM).- 2.6 Ion Scattering Spectroscopy (ISS).- 2.7 Other Methods.- 2.7.1 Stimulated Desorption.- 2.7.2 Vibrational Spectroscopies.- 2.7.3 Surface Electronic Properties and Optical Methods.- 2.8 Outlook.- References.- 3. High-Resolution Electron Microscopy of Surfaces.- 3.1 Background.- 3.2 Image Formation.- 3.2.1 Basics.- 3.2.2 Electron Scattering.- 3.2.3 Lens Aberrations.- 3.2.4 Image Localisation.- 3.2.5 Image Simulation.- 3.3 Applications.- 3.3.1 Qualitative Imaging.- 3.3.2 Quantitative Analysis.- 3.4 A Note of Warning.- 3.5 Gold(110).- 3.6 Other High-Resolution Techniques.- 3.6.1 Transmission Geometry.- 3.6.2 Reflection Geometry.- 3.7 Conclusions and the Future.- References.- 4. Surface Channeling and Its Application to Surface Structures and Location of Adsorbates.- 4.1 Overview.- 4.2 Principles.- 4.2.1 Continuum Potential.- 4.2.2 Transverse Energy.- 4.2.3 Flux Distribution.- 4.2.4 Dechanneling.- 4.2.5 Classical Scattering Versus Quantum Diffraction.- 4.3 Surface Channeling Angular Yield Profiles.- 4.3.1 General Considerations.- 4.3.2 Computer Simulation.- 4.4 Applications.- 4.4.1 Experimental.- 4.4.2 Surface Structure and Reconstruction.- 4.4.3 Surface Reconstruction.- 4.4.4 Location of Adsorbed Atoms.- 4.5 Applicability of Surface Channeling to Surface Studies.- 4.5.1 Surface Sensitivity.- 4.5.2 Selection of the Auger Transition.- 4.5.3 Selection of the Angle of Incidence to the Surface.- 4.6 Factors of Influence on the Angular Yield Profiles.- 4.6.1 Radiation Damage.- 4.6.2 Thermal Lattice Vibrations.- 4.6.3 Mean-Free Path of Excited Electrons.- 4.6.4 Surface Steps.- 4.7 Concluding Remarks.- References.- 5. Dynamical Surface Properties in the Harmonic Approximation..- 5.1 Introductory Remarks.- 5.2 The Theory of Vibrations in the Harmonic Approximation.- 5.2.1 The Case of No Periodicity.- 5.2.2 The Case of a Bare Periodic Surface.- 5.2.3 The Case of a Periodic Overlayer.- 5.3 Bare Metals.- 5.3.1 Methods of Mode-Frequency Calculation.- 5.3.2 General Theoretical Calculations.- 5.3.3 Experimental Results and Theoretical Interpretation.- 5.4 Metals with Adsorbates.- 5.4.1 The Calculation of Adsorbate Mode Frequencies.- 5.4.2 Experimental and Theoretical Results — Commensurate Overlayers.- 5.4.3 Experimental and Theoretical Results — Incommensurate Overlayers.- 5.5 Concluding Remarks.- 5.5.1 Bare Surfaces.- 5.5.2 Adsorbates.- References.- 6. Molecular Dynamics and the Study of Anharmonic Surface Effects..- 6.1 Introductory Remarks.- 6.2 Analysis of Many-Particle Systems.- 6.2.1 Pair Potential Approximation.- 6.2.2 “Simple Models”.- 6.2.3 Molecular Dynamics.- 6.3 Average Values.- 6.3.1 Density in Phase Space.- 6.3.2 Statistical-Mechanical Ensembles.- 6.3.3 Measureable Quantities.- 6.4 Molecular Dynamics Systems.- 6.4.1 Models for the Bulk.- 6.4.2 Models with Surfaces and Interfaces.- 6.4.3 Interaction Potentials.- 6.4.4 Time Evolution of Molecular Dynamics Systems.- 6.5 Applications of the Molecular Dynamics Method.- 6.5.1 Phase Transitions in Two-Dimensional Systems.- 6.5.2 Diatomic Molecules Adsorbed on Surfaces.- 6.5.3 Melting Transition of Near Monolayer Xenon Films on Graphite.- 6.5.4 Microscopic Behavior of Krypton Atoms at the Surface.- 6.6 Final Remarks.- References.- 7. Surface Phonon Dispersion of Surface and Adsorbate Layers.- 7.1 Background and Overview.- 7.2 Description of the Experiment.- 7.2.1 General Features of Electron-Surface Interaction.- 7.2.2 Experimental Details.- 7.2.3 Multiple-Scattering Effects.- 7.3 Phonon Dispersion Curves.- 7.3.1 The Clean Ni Surface.- 7.3.2 (2 x 2) Adsorbate Phases on Ni(100).- 7.3.3 Effect of Random Adsorption of Oxygen on the Rayleigh Wave.- 7.4 Internal Strains, Phonon Anomalies and Reconstruction.- 7.4.1 A Lattice-Dynamical Model with Internal Strains.- 7.4.2 The Stress-Model and Other Experimental Observations.- References.