Electron microscopy has been the recent subject of molecular imaging due to the strength of the electrons' interaction with the target molecule making for a detailed pattern at a small scale.[1] To achieve the best 4D image of the target, one needs sufficient spatial and temporal resolution, the prior being an issue of using electrons in the keV regime as to achieve an optimally small deBroglie wavelength, and the latter being improved by the temporal width of the electron wave packet itself.[2] In order to image the motion of the electronic structure of the target molecule, this width must be within the attosecond regime. In this paper, we use the computational method of time-dependent density functional theory (TDDFT) to model o...
We develop a first-principles simulation method for attosecond time-resolved photoelectron spectrosc...
Imaging the dynamics of molecular processes, i.e. the creation of a so-called \u27molecular movie\u2...
We demonstrate an experimental method to record snapshot diffraction images of polyatomic gas-phase ...
In this contribution, we consider the advancement of ultrafast electron diffraction and microscopy t...
Time Dependent Density Functional Theory is used to probe the structure of matter. Coulomb explosio...
Attosecond electron dynamics in small- and medium-sized molecules, induced by an ultrashort strong o...
We consider here the extension of four-dimensional (4D) electron imaging methodology to the attoseco...
We investigate theoretically the direct imaging of coherent electronic motion in atoms and molecules...
Density functional theory is utilized in real-time, real-space simulations of LEED measurements and...
AbstractPump–probe electron diffraction and ultrafast microscopy, based on laser excitation and prob...
Ultrafast electron diffraction from time-varying coherent electronic states of the H atom is analyze...
International audienceA strong laser field may tunnel ionize a molecule from several orbitals simult...
The detection of spatial and temporal electronic motion by scattering of subfemtosecond pulses of 10...
Attosecond imaging with electron beams can access optical-field-driven electron dynamics in space an...
Imaging the microscopic world in real space and real time is a grand challenge of science. In the la...
We develop a first-principles simulation method for attosecond time-resolved photoelectron spectrosc...
Imaging the dynamics of molecular processes, i.e. the creation of a so-called \u27molecular movie\u2...
We demonstrate an experimental method to record snapshot diffraction images of polyatomic gas-phase ...
In this contribution, we consider the advancement of ultrafast electron diffraction and microscopy t...
Time Dependent Density Functional Theory is used to probe the structure of matter. Coulomb explosio...
Attosecond electron dynamics in small- and medium-sized molecules, induced by an ultrashort strong o...
We consider here the extension of four-dimensional (4D) electron imaging methodology to the attoseco...
We investigate theoretically the direct imaging of coherent electronic motion in atoms and molecules...
Density functional theory is utilized in real-time, real-space simulations of LEED measurements and...
AbstractPump–probe electron diffraction and ultrafast microscopy, based on laser excitation and prob...
Ultrafast electron diffraction from time-varying coherent electronic states of the H atom is analyze...
International audienceA strong laser field may tunnel ionize a molecule from several orbitals simult...
The detection of spatial and temporal electronic motion by scattering of subfemtosecond pulses of 10...
Attosecond imaging with electron beams can access optical-field-driven electron dynamics in space an...
Imaging the microscopic world in real space and real time is a grand challenge of science. In the la...
We develop a first-principles simulation method for attosecond time-resolved photoelectron spectrosc...
Imaging the dynamics of molecular processes, i.e. the creation of a so-called \u27molecular movie\u2...
We demonstrate an experimental method to record snapshot diffraction images of polyatomic gas-phase ...