Atomic configurations of glassy or amorphous materials containing medium-range order (MRO) may be identified by comparing fluctuation transmission electron microscopy (FTEM) measurements to FTEM simulations obtained using model configurations. Candidate model sizes have traditionally been much thinner than the samples measured experimentally, and publicly available FTEM simulation software has until now omitted microscope parameters, dynamical scattering, and the phase of the diffracted electron wave. We introduce MS-STEM-FEM, an open-source software package for simulating FTEM experiments using established multi-slice TEM simulation techniques to emulate experiment more closely by incorporating microscope parameters and simulating electron...
The Dr. Probe software for multislice simulations of STEM images is introduced, and reference is giv...
The authors have developed a new electron microscopy technique called fluctuation microscopy which i...
Dislocations in crystalline materials have a strong impact on mechanical properties. As a result, id...
Atomic configurations of glassy or amorphous materials containing medium-range order (MRO) may be id...
Amorphous and glassy materials have many technologically useful properties which are dependent on th...
FEMSIM, a Fortran code, is used to simulate the fluctuation electron microscopy signal, the variance...
Scanning transmission electron microscopy (STEM), where a converged electron probe is scanned over a...
Scanning transmission electron microscopy (STEM), where a converged electron probe is scanned over a...
Fluctuation electron microscopy (FEM) is a statistical technique that measures topological order on ...
Image simulation for scanning transmission electron microscopy at atomic resolution for samples with...
Image simulation for scanning transmission electron microscopy at atomic resolution for samples with...
Recent work has revived interest in the scattering matrix formulation of electron scattering in tran...
abstract: Fluctuation Electron Microscopy (FEM) has become an effective materials' structure charact...
In a Bloch-wave-based scanning transmission electron microscope (STEM) image simulation, a framework...
These datasets were used to compare fluctuation electron microscopy analysis methods on simulated an...
The Dr. Probe software for multislice simulations of STEM images is introduced, and reference is giv...
The authors have developed a new electron microscopy technique called fluctuation microscopy which i...
Dislocations in crystalline materials have a strong impact on mechanical properties. As a result, id...
Atomic configurations of glassy or amorphous materials containing medium-range order (MRO) may be id...
Amorphous and glassy materials have many technologically useful properties which are dependent on th...
FEMSIM, a Fortran code, is used to simulate the fluctuation electron microscopy signal, the variance...
Scanning transmission electron microscopy (STEM), where a converged electron probe is scanned over a...
Scanning transmission electron microscopy (STEM), where a converged electron probe is scanned over a...
Fluctuation electron microscopy (FEM) is a statistical technique that measures topological order on ...
Image simulation for scanning transmission electron microscopy at atomic resolution for samples with...
Image simulation for scanning transmission electron microscopy at atomic resolution for samples with...
Recent work has revived interest in the scattering matrix formulation of electron scattering in tran...
abstract: Fluctuation Electron Microscopy (FEM) has become an effective materials' structure charact...
In a Bloch-wave-based scanning transmission electron microscope (STEM) image simulation, a framework...
These datasets were used to compare fluctuation electron microscopy analysis methods on simulated an...
The Dr. Probe software for multislice simulations of STEM images is introduced, and reference is giv...
The authors have developed a new electron microscopy technique called fluctuation microscopy which i...
Dislocations in crystalline materials have a strong impact on mechanical properties. As a result, id...