Photo from wikipedia
We discuss the delocalization of the inelastic scattering of 60-300keV electrons in a thin specimen, for energy losses below 50eV where the delocalization length exceeds atomic dimensions. Analytical expressions are… Click to show full abstract
We discuss the delocalization of the inelastic scattering of 60-300keV electrons in a thin specimen, for energy losses below 50eV where the delocalization length exceeds atomic dimensions. Analytical expressions are derived for the point spread function (PSF) that describes the radial distribution of this scattering, based on its angular distribution and a dielectric representation of energy loss. We also compute a PSF for energy deposition, which is directly related to the radiolysis damage created by a small-diameter probe. These concepts are used to explain the damage kinetics, measured as a function of probe diameter, in various polymers. We also evaluate a "leapfrog" coarse-scanning procedure as a technique for energy-filtered imaging of a beam-sensitive specimen.
Journal Title: Ultramicroscopy
Year Published: 2017
Link to full text (if available)
Share on Social Media: Sign Up to like & get
recommendations!