Femtosecond electron crystallography reveals the atomic structural changes that underpin a light-induced insulator-metal transition
Transition metals, with their densely confined and strongly coupled valence electrons, are key const...
parameter ABSTRACT Femtosecond electron diffraction is a rapidly advancing technique that holds a gr...
Among functional organic materials, low‐dimensional molecular crystals represent an intriguing class...
Femtosecond electron crystallography reveals the atomic structural changes that underpin a light-ind...
With the recent advances in ultrabright electron and x-ray sources, it is now possible to extend cry...
One of the great dream experiments in Science is to directly observe atomic motions as they occur. F...
International audienceA laser pulse can switch certain crystals from an insulating phase to a highly...
The recent development of femtosecond electron and x-ray techniques for diffraction and imaging allo...
A long-held thought experiment of science is the direct observation of the motions of atoms and mole...
Ultrafast processes can now be studied with the combined atomic spatial resolution of diffraction me...
The development of ultrafast time-resolved techniques in the last decades allowed the direct observa...
The extreme electro-optical contrast between crystalline and amorphous states in phase-change materi...
Transient control over the atomic potential-energy landscapes of solids could lead to new states of ...
International audiencePhotoexcitation of spin crossover (SCO) complexes can trigger extensive electr...
Transition metals, with their densely confined and strongly coupled valence electrons, are key const...
parameter ABSTRACT Femtosecond electron diffraction is a rapidly advancing technique that holds a gr...
Among functional organic materials, low‐dimensional molecular crystals represent an intriguing class...
Femtosecond electron crystallography reveals the atomic structural changes that underpin a light-ind...
With the recent advances in ultrabright electron and x-ray sources, it is now possible to extend cry...
One of the great dream experiments in Science is to directly observe atomic motions as they occur. F...
International audienceA laser pulse can switch certain crystals from an insulating phase to a highly...
The recent development of femtosecond electron and x-ray techniques for diffraction and imaging allo...
A long-held thought experiment of science is the direct observation of the motions of atoms and mole...
Ultrafast processes can now be studied with the combined atomic spatial resolution of diffraction me...
The development of ultrafast time-resolved techniques in the last decades allowed the direct observa...
The extreme electro-optical contrast between crystalline and amorphous states in phase-change materi...
Transient control over the atomic potential-energy landscapes of solids could lead to new states of ...
International audiencePhotoexcitation of spin crossover (SCO) complexes can trigger extensive electr...
Transition metals, with their densely confined and strongly coupled valence electrons, are key const...
parameter ABSTRACT Femtosecond electron diffraction is a rapidly advancing technique that holds a gr...
Among functional organic materials, low‐dimensional molecular crystals represent an intriguing class...
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