Neueste experimentelle und theoretische Ergebnisse auf dem Gebiet der Korrelationsspektroskopie an Grenzflächen, dünnen Schichten und Nanostrukturen stehen im Mittelpunkt dieses Bandes. Insbesondere Koinzidenzmethoden werden ausführlich erläutert, der Informationsgehalt ihrer Ergebnisse wird vom Standpunkt des Theoretikers aus kritisch diskutiert. Unentbehrlich für alle, die sich mit der Charakterisierung von Nanowerkstoffen und -bauelementen befassen!
Neueste experimentelle und theoretische Ergebnisse auf dem Gebiet der Korrelationsspektroskopie an Grenzflächen, dünnen Schichten und Nanostrukturen stehen im Mittelpunkt dieses Bandes. Insbesondere Koinzidenzmethoden werden ausführlich erläutert, der Informationsgehalt ihrer Ergebnisse wird vom Standpunkt des Theoretikers aus kritisch diskutiert. Unentbehrlich für alle, die sich mit der Charakterisierung von Nanowerkstoffen und -bauelementen befassen!
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Autorenporträt
Jamal Berakdar is an outstanding young researcher who has accomplished in less than ten years remarkable contributions to the field. He is well acknowledged by the scientific community. PhD-thesis at University of Freiburg (Prof. Klar, 1994), Humboldt- and Research fellow at Atomic & Molecular Physics Laboratories, Australian National University; since 1998 researcher at Max-Planck Institute for Microstructure Physics in Halle, Germany.
Inhaltsangabe
Aus dem Inhalt: A Many-Body approach to the electronic and optical properties of copper and silver - Electron-electron coincidence studies on atomic targets: a review of (e,2e) and (e,3e) experiments - Recent results from (gamma; e-gamma) and Compton spectroscopy - Auger-photoelectron coincidence spectroscopy (APECS) of transition metal compounds - Theory of (e,2e) spectroscopy from ferromagnetic surfaces - A first-principles scheme for calculating the electronic structure of strongly correlated materials: GW+DMFTO - Correlation spectroscopy of nano-size materials - Ab-initio calculations of charge exchange in ion-surface collisions: an embedded-cluster approach - Development of new apparatus for alectron-polar-angle-resolved-ion coincidence spectroscopy and Auger-photoelectron coincidence spectroscopy - Many-body effects in Auger-photoelectron coincidence spectroscopy - Two-electron spectroscopy versus single-electron spectroscopy for studying secondary emission from surfaces - Relevance of the core hole alignment to Auger photoelectron pair angular distributions in solids - Auger photoelectron coincidence spectroscopy studies from surfaces - EMS measurement of the valence spectral function ofsilicon, a test of many-body theory - Coincident studies on electronic interaction mechanisms during scattering of fast atoms from a LiF(001) surface - Studying the details of the electron-electron interaction in solids and surfaces
Aus dem Inhalt: A Many-Body approach to the electronic and optical properties of copper and silver - Electron-electron coincidence studies on atomic targets: a review of (e,2e) and (e,3e) experiments - Recent results from (gamma; e-gamma) and Compton spectroscopy - Auger-photoelectron coincidence spectroscopy (APECS) of transition metal compounds - Theory of (e,2e) spectroscopy from ferromagnetic surfaces - A first-principles scheme for calculating the electronic structure of strongly correlated materials: GW+DMFTO - Correlation spectroscopy of nano-size materials - Ab-initio calculations of charge exchange in ion-surface collisions: an embedded-cluster approach - Development of new apparatus for alectron-polar-angle-resolved-ion coincidence spectroscopy and Auger-photoelectron coincidence spectroscopy - Many-body effects in Auger-photoelectron coincidence spectroscopy - Two-electron spectroscopy versus single-electron spectroscopy for studying secondary emission from surfaces - Relevance of the core hole alignment to Auger photoelectron pair angular distributions in solids - Auger photoelectron coincidence spectroscopy studies from surfaces - EMS measurement of the valence spectral function ofsilicon, a test of many-body theory - Coincident studies on electronic interaction mechanisms during scattering of fast atoms from a LiF(001) surface - Studying the details of the electron-electron interaction in solids and surfaces
Rezensionen
"...for experimental or theoretical scientists conducting research, although...students interested in research in this area of spectroscopy will find this title extraordinarily valuable." E-STREAMS, March 2005
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