Microbeam and Nanobeam Analysis [Paperback]

Monte Carlo Simulation Techniques for Quantitative X-Ray Microanalysis.- Transport Equation Approach to Electron Microbeam Analysis: Fundamentals and Applications.- Use of Soft X-Rays in Microanalysis.- Intensity Measurement of Wavelength Dispersive X-Ray Emission Bands: Applications to the Soft X-Ray Region.- Synchrotron Radiation Induced X-ray Microfluorescence Analysis.- Particle-Induced X-Ray Emission  A Quantitative Technique Suitable for Microanalysis.- Cathodoluminescence Microscopy and Spectroscopy of Semiconductors and Wide Bandgap Insulating Materials.- Time-of-Flight Secondary Ion Mass Spectrometry (ToF-SIMS).- Three-Dimensional Nanoanalysis with the Tomographic Atom-Probe.- Microanalysis at Atomic Resolution.- Composition of Vanadium Carbides Formed by Solidification in Fe-V-C-M Alloys: Influence of Additions (M = Al, Cu, Mo).- Electron Transmission Coefficient for Oblique Angle of Incidence.- Depth Distribution Function for Oblique Angle of Incidence.- Simulation of EDS Spectra Using X-RES Software.- On the Use of the GeL? Line in Thin Film X-Ray Microanalysis of Si1-x Gex/Si Heterostructures.- Computer Simulations of the X-Ray Intensity Distribution from Submicron Particles Embedded in a Matrix.- Determination of Rare Earth Elements in Biological and Mineral Apatite by EPMA and LAMP-ICP-MS.- Quantitative Analysis of the Compound Layer of Plasma Nitrided Pure Iron.- Correction of the Edge Effect in Auger Electron Microscopy.- Low Energy Imaging of Nonconductive Surfaces in SEM.- Investigation of the Bonding Mechanism of Glass Ceramic Layers on Metal Alloys.- Monte Carlo Method for Quantitative Analysis of Bulk and Layered Samples.- SIMS Linescan Profiling of Chemically Bevelled Semiconductors: a Method of Overcoming Ion Beam Induced Segregation in Depth Profiling.- Experimental Verification of Theoretical Models Simulating the Temperature Increase in EPMA of Glass.- Quantitation of Mineral Elements of Different Fruit Pollen Grains.- Electron Beam Induclc"