In quantitative scanning transmission electron microscopy (STEM), scattering cross-sections have been shown to be very sensitive to the number of atoms in a column and its composition. They correspond to the integrated intensity over the atomic column and they outperform other measures. As compared to atomic column peak intensities, which saturate at a given thickness, scattering cross-sections increase monotonically. A study of the electron wave propagation is presented to explain the sensitivity of the scattering cross-sections. Based on the multislice algorithm, we analyse the wave propagation inside the crystal and its link to the scattered signal for the different probe positions contained in the scattering cross-section for detector c...
Solid-state properties such as strain or chemical composition often leave characteristic fingerprint...
© 2005 Dr. Scott David FindlayThis thesis explores the theory describing wavefunctions and images, b...
The projected electrostatic potential of a thick crystal is reconstructed at atomic resolution from ...
In quantitative scanning transmission electron microscopy (STEM), scattering cross-sections have bee...
Recent work has revived interest in the scattering matrix formulation of electron scattering in tran...
The angle-resolved electron scattering is investigated in scanning-transmission electron microscopy ...
In Scanning Transmission Electron Microscopy (STEM) the High-Angle Annular Dark-Field (HAADF) signal...
Quantitative analysis becomes more and more important in High-Resolution-Transmission-Electron-Micro...
It is proposed that the thicknesses of electron microscope objects be determined by measuring the di...
Accurate values for the thickness of electron-transparent specimens in electron microscopy are of ge...
We report a study of scattering dynamics in crystals employing momentum-resolved scanning transmissi...
Aspects of a theoretical and computational basis for the simulation of fast electron scattering in a...
Abstract Scanning transmission electron microscopy (STEM) has advanced rapidly in the last decade th...
The optical arrangement of the scanning transmission electron microscope (STEM) is ideally suited fo...
In the simulation of secondary electron yields (SEY) and secondary electron microscopy (SEM) images,...
Solid-state properties such as strain or chemical composition often leave characteristic fingerprint...
© 2005 Dr. Scott David FindlayThis thesis explores the theory describing wavefunctions and images, b...
The projected electrostatic potential of a thick crystal is reconstructed at atomic resolution from ...
In quantitative scanning transmission electron microscopy (STEM), scattering cross-sections have bee...
Recent work has revived interest in the scattering matrix formulation of electron scattering in tran...
The angle-resolved electron scattering is investigated in scanning-transmission electron microscopy ...
In Scanning Transmission Electron Microscopy (STEM) the High-Angle Annular Dark-Field (HAADF) signal...
Quantitative analysis becomes more and more important in High-Resolution-Transmission-Electron-Micro...
It is proposed that the thicknesses of electron microscope objects be determined by measuring the di...
Accurate values for the thickness of electron-transparent specimens in electron microscopy are of ge...
We report a study of scattering dynamics in crystals employing momentum-resolved scanning transmissi...
Aspects of a theoretical and computational basis for the simulation of fast electron scattering in a...
Abstract Scanning transmission electron microscopy (STEM) has advanced rapidly in the last decade th...
The optical arrangement of the scanning transmission electron microscope (STEM) is ideally suited fo...
In the simulation of secondary electron yields (SEY) and secondary electron microscopy (SEM) images,...
Solid-state properties such as strain or chemical composition often leave characteristic fingerprint...
© 2005 Dr. Scott David FindlayThis thesis explores the theory describing wavefunctions and images, b...
The projected electrostatic potential of a thick crystal is reconstructed at atomic resolution from ...