Auger process, valence spectra, handbooks, books, surface sensitivity, information depth and attention length, spin-orbit splitting, chemical shift, plasmons, multiplet splitting, shake-up, handbooks and helpful references will be recommended. The Principles of XPS: production of photoelectrons, electronic configuration of atoms and molecules, energy, spectra, peak labeling. Introduction: terminology, surfaces, types of surfaces. The course will teach how and what information can be provided by XPS. XPS is widely used to determine the chemical composition of a surface (element concentrations, chemical states, lateral and depth distributions, etc.) Nowadays XPS has become a standard technique for the characterization of solid surface. 'Advanced data analysis: coverage calculation, thin film thickness calculation, etc. 'Learn the types of problems that can be solved with XPS examples 'Learn approaches for qualitative and quantitative analysis of XPS data. 'Learn about the analysis of surfaces with XPS and limitations of the technique. 'Learn physics principles of X-ray Photoelectron Spectroscopy (XPS)
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