Applications and Complementary Techniques 6 Auger Electrons For Advanced Analysis Wagner Plots Complementary Techniques Ion Scattering Spectroscopy (ISS) / Low Energy Ion Scattering (LEIS) Reflectance Electron Energy Loss Spectroscopy (REELS) Depth Analysis in XPS Angle-Resolved XPS (ARXPS) Gas Cluster Ion Etching Thickogram Analysis
Data Analysis Centre 27 Avantage Guides Avantage Backgrounds Avantage Backgrounds – Shirley and Linear Avantage Backgrounds – Tougaard Creating a Background in Avantage Avantage Basics Annotating Data in Avantage Element Identification with Avantage Files With Multiple Spectra in Avantage Importing and Viewing Data in Avantage Avantage Complementary Techniques REELS Data with Avantage – Band Gaps Avantage Depth Profiling Files With Multiple Spectra in Avantage Avantage Imaging Files With Multiple Spectra in Avantage Avantage Peak Modelling Add a Simple Peak Model in Avantage Adding Doublet Peaks in Avantage Asymmetric Peak Modelling with Avantage CasaXPS Guides CasaXPS Advanced Functions Smoothing Data CasaXPS Backgrounds Basics of Quantification in CasaXPS CasaXPS Basics Basics of Quantification in CasaXPS CasaXPS Layout and Menu Structure Exporting Data and Images in CasaXPS Getting Started with Peak Fitting CasaXPS for Other Techniques Simple Work Function Analysis from UPS CasaXPS Introduction to Fitting Getting Started with Peak Fitting LA and LF Lineshapes in CasaXPS CasaXPS Tips and Tricks Manipulating Vamas Blocks in CasaXPS KherveFitting Guides Khervefitting Advanced Tools Thickograms in KherveFitting KherveFitting Getting Started Adding Backgrounds in KherveFitting Peak Identification in KherveFitting Sample Manager in KherveFitting
Fundamentals of XPS 26 Advanced Fundamentals of XPS Advanced Auger Analysis Background Types Coster-Kronig peak broadening Photoionisation Cross-Sections Recoil Effects The Auger Parameter XPS Transmission Function Beginners Fundamentals of XPS Analysis Depth in XPS & IMFP Auger-Meitner Process and Peaks Electronic Structure in Solids – Definitions Factors Affecting Peak Width in XPS Initial vs Final State Effects Multiplet Splitting Peak Asymmetry in Conductive Materials Peak Intensity in XPS Relative Sensitivity Factors Shake-up Peaks Data Acquisition Guides Experimental Reporting in XPS Pass Energy in XPS Measurements Spectral Features in XPS Plasmon Losses XPS Instrumentation Pass Energy in XPS Measurements X-ray Source Energy XPS Transmission Function
XPS of the Elements 89 Actinides Americium Plutonium Uranium Alkali Metals Caesium Lithium Potassium Rubidium Sodium Alkaline Earth Metals Barium Beryllium Calcium Magnesium Radium Strontium Halides Astatine Bromine Chlorine Fluorine Iodine Lanthanides Cerium Dysprosium Erbium Europium Gadolinium Holmium Lanthanum Lutetium Neodymium Praseodymium Metalloids Aluminium Antimony Arsenic Astatine Boron Germanium Silicon Tellurium Noble Gases Argon Krypton Neon Radon Xenon Non-Metals Carbon Nitrogen Oxygen Phosphorous Selenium Sulfur Post-Transition Metals Astatine Bismuth Gallium Indium Lead Polonium Thallium Tin Transition Metals Cadmium Chromium Cobalt Copper Gold Hafnium Iridium Iron Manganese Mercury
