We report the influence of multiple plasmon losses on the dynamical diffraction of high-energy electrons, in a scanning transmission electron microscopy (STEM) study. Using an experimental setup enabling energy-filtered momentum-resolved STEM, it is shown that the successive excitation of up to five plasmons within the imaged material results in a subsequent and significant redistribution of low-angle intensity in diffraction space. An empirical approach, based on the convolution with a Lorentzian kernel, is shown to reliably model this redistribution in dependence of the energy-loss. Our study demonstrates that both the significant impact of inelastic scattering in low-angle diffraction at elevated specimen thickness and a rather straightf...
Aspects of a theoretical and computational basis for the simulation of fast electron scattering in a...
Technological opportunities are explored to enhance detection schemes in transmission electron micro...
A theory is proposed to include the effects of valence excitations in electron image simulations for...
We report the influence of multiple plasmon losses on the dynamical diffraction of high-energy elect...
A generalized multislice theory is proposed from quantum mechanics to approach the multiple elastic...
Scanning transmission electron microscopy (STEM) allows to gain quantitative information on the ato...
We report a study of scattering dynamics in crystals employing momentum-resolved scanning transmissi...
The theoretical conditions for small-angle inelastic scattering where the incident electron can effe...
Quantitative electron microscopy requires accurate simulation methods that take into account both el...
Angular resolved scanning transmission electron microscopy is an important tool for investigating th...
A new dynamical theory is developed for describing inelastic electron scattering in thin crystals. C...
Recent work has revived interest in the scattering matrix formulation of electron scattering in tran...
Angular resolved scanning transmission electron microscopy is an important tool for investigating th...
An electron beam traversing a structured plasmonic field is shown to undergo diffraction with charac...
Four-dimensional scanning transmission electron microscopy (4D-STEM) is a technique where a full two...
Aspects of a theoretical and computational basis for the simulation of fast electron scattering in a...
Technological opportunities are explored to enhance detection schemes in transmission electron micro...
A theory is proposed to include the effects of valence excitations in electron image simulations for...
We report the influence of multiple plasmon losses on the dynamical diffraction of high-energy elect...
A generalized multislice theory is proposed from quantum mechanics to approach the multiple elastic...
Scanning transmission electron microscopy (STEM) allows to gain quantitative information on the ato...
We report a study of scattering dynamics in crystals employing momentum-resolved scanning transmissi...
The theoretical conditions for small-angle inelastic scattering where the incident electron can effe...
Quantitative electron microscopy requires accurate simulation methods that take into account both el...
Angular resolved scanning transmission electron microscopy is an important tool for investigating th...
A new dynamical theory is developed for describing inelastic electron scattering in thin crystals. C...
Recent work has revived interest in the scattering matrix formulation of electron scattering in tran...
Angular resolved scanning transmission electron microscopy is an important tool for investigating th...
An electron beam traversing a structured plasmonic field is shown to undergo diffraction with charac...
Four-dimensional scanning transmission electron microscopy (4D-STEM) is a technique where a full two...
Aspects of a theoretical and computational basis for the simulation of fast electron scattering in a...
Technological opportunities are explored to enhance detection schemes in transmission electron micro...
A theory is proposed to include the effects of valence excitations in electron image simulations for...