Dynamical inelastic scattering in high-energy electron diffraction and imaging: A new theoretical approach
Author(s)
Wang, Z. L. (Zhong Lin)
Advisor(s)
Editor(s)
Collections
Supplementary to:
Permanent Link
Abstract
A generalized multislice theory is proposed from quantum mechanics to approach the multiple
elastic and multiple inelastic scattering of high-energy electrons in a solid. The nonperiodic structure
of crystals can be introduced in the calculations for the scattering geometries of transmission
electron microscopy and reflection electron microscopy. Detailed applications of this generalized
theory will be given for calculating (a) the energy-filtered-plasmon energy-loss diffraction patterns
and images, (b) the energy-filtered diffraction patterns from atomic inner-shell losses, and (c) the
contribution of thermal diffuse scattering to the high-angle annular-dark-field (ADF) scanning transmission-electron-microscopy (STEM) lattice images. An "incoherent" imaging theory is
presented for simulating the ADF STEM images and the detailed calculations are addressed for
Ge/Si interfaces.
Sponsor
Date
1990-06-15
Extent
3398183 bytes
Resource Type
Text
Resource Subtype
Article