Add to ORKGComplex systems in condensed phases involve a multidimensional energy landscape, and knowledge of transitional structures and separation of time scales for atomic movements is critical to understanding their dynamical behavior. Here, we report, using four-dimensional (4D) femtosecond electron diffraction, the visualization of transitional structures from the initial monoclinic to the final tetragonal phase in crystalline vanadium dioxide; the change was initiated by a near-infrared excitation. By revealing the spatiotemporal behavior from all observed Bragg diffractions in 3D, the femtosecond primary vanadium–vanadium bond dilation, the displacements of atoms in picoseconds, and the sound wave shear motion on hundreds of picoseconds were re...
Understanding physicochemical processes at their fundamental timescale is crucial for design and app...
In this Letter, we introduce conical-scanning dark-field imaging in four-dimensional (4D) ultrafast ...
We have systematically studied a variety of vanadium dioxide (VO2) crystalline forms, including bulk...
Complex systems in condensed phases involve a multidimensional energy landscape, and knowledge of tr...
Imaging with ultrashort electron pulses allows visualizing atomic-scale motions in all four dimensi...
Time-resolved electron diffraction with atomic-scale spatial and temporal resolution was used to unr...
Four-dimensional (4D) imaging during structural changes are reported here using ultrafast electron m...
The continuing effort to utilize the unique properties present in a number of strongly correlated tr...
In this Letter, we introduce conical-scanning dark-field imaging in four-dimensional (4D) ultrafast ...
In this Letter, we introduce conical-scanning dark-field imaging in four-dimensional (4D) ultrafast ...
Correlated electronic materials are of interest due to strong coupling between lattice, spin and orb...
Femtosecond x-ray and visible pulses were used to probe structural and electronic dynamics during an...
Summary form only given. The dynamics of phase transformations in condensed phases have been intense...
The insulator-to-metal transition of vanadium dioxide has attracted the interest of condensed matter...
One of the great dream experiments in Science is to directly observe atomic motions as they occur. F...
Understanding physicochemical processes at their fundamental timescale is crucial for design and app...
In this Letter, we introduce conical-scanning dark-field imaging in four-dimensional (4D) ultrafast ...
We have systematically studied a variety of vanadium dioxide (VO2) crystalline forms, including bulk...
Complex systems in condensed phases involve a multidimensional energy landscape, and knowledge of tr...
Imaging with ultrashort electron pulses allows visualizing atomic-scale motions in all four dimensi...
Time-resolved electron diffraction with atomic-scale spatial and temporal resolution was used to unr...
Four-dimensional (4D) imaging during structural changes are reported here using ultrafast electron m...
The continuing effort to utilize the unique properties present in a number of strongly correlated tr...
In this Letter, we introduce conical-scanning dark-field imaging in four-dimensional (4D) ultrafast ...
In this Letter, we introduce conical-scanning dark-field imaging in four-dimensional (4D) ultrafast ...
Correlated electronic materials are of interest due to strong coupling between lattice, spin and orb...
Femtosecond x-ray and visible pulses were used to probe structural and electronic dynamics during an...
Summary form only given. The dynamics of phase transformations in condensed phases have been intense...
The insulator-to-metal transition of vanadium dioxide has attracted the interest of condensed matter...
One of the great dream experiments in Science is to directly observe atomic motions as they occur. F...
Understanding physicochemical processes at their fundamental timescale is crucial for design and app...
In this Letter, we introduce conical-scanning dark-field imaging in four-dimensional (4D) ultrafast ...
We have systematically studied a variety of vanadium dioxide (VO2) crystalline forms, including bulk...