Add to ORKGDiffraction techniques have allowed determination of three-dimensional equilibrium structures with atomic resolution in systems ranging from diatoms (NaC1) to DNA, proteins and complex assemblies such as viruses. For dynamics, the time resolution has similarly reached the fundamental atomic scale of motion. With the advent of femtosecond time resolution nearly two decades ago, it has become possible to study the dynamics of non-equilibrium molecular systems, also from the very small (NaI) to the very large (DNA, proteins and their complexes) [1]. A tantalizing goal is the potential to map out, in real time, the coordinates of all individual atoms in complex chemical and biological reactions
The long held objective of directly observing atomic motions during the defining moments of chemistr...
The long held objective of directly observing atomic motions during the defining moments of chemistr...
We review the tremendous advances in ultrafast X-ray science, over the past 15 years, making the bes...
Diffraction techniques have allowed determination of three-dimensional equilibrium structures with ...
Molecular dynamics is now routinely studied on femtosecond time scales using various spectroscopies....
Recent advances in ultrafast electron diffraction offer the possibility to image isolated molecules ...
With properly timed sequences of ultrafast electron pulses, it is now possible to image complex mole...
Ultrafast electron diffraction has emerged since the end of last century, and has become an increasi...
In this contribution, we report studies in ultrafast electron diffraction (UED), with the aim of exp...
Over many millennia, humankind has thought to explore phenomena on an ever shorter time scale. In th...
Ultrafast electron diffraction (UED) is developed, in this and the accompanying paper, as a method f...
To study nature on the atomic scale one can use an electron microscope. However, this device cannot ...
One of the great dream experiments in Science is to directly observe atomic motions as they occur. F...
This article highlights the recent development of ultrafast electron diffraction at Caltech. This de...
In this article we highlight recent developments of ultrafast electron diffraction and crystallograp...
The long held objective of directly observing atomic motions during the defining moments of chemistr...
The long held objective of directly observing atomic motions during the defining moments of chemistr...
We review the tremendous advances in ultrafast X-ray science, over the past 15 years, making the bes...
Diffraction techniques have allowed determination of three-dimensional equilibrium structures with ...
Molecular dynamics is now routinely studied on femtosecond time scales using various spectroscopies....
Recent advances in ultrafast electron diffraction offer the possibility to image isolated molecules ...
With properly timed sequences of ultrafast electron pulses, it is now possible to image complex mole...
Ultrafast electron diffraction has emerged since the end of last century, and has become an increasi...
In this contribution, we report studies in ultrafast electron diffraction (UED), with the aim of exp...
Over many millennia, humankind has thought to explore phenomena on an ever shorter time scale. In th...
Ultrafast electron diffraction (UED) is developed, in this and the accompanying paper, as a method f...
To study nature on the atomic scale one can use an electron microscope. However, this device cannot ...
One of the great dream experiments in Science is to directly observe atomic motions as they occur. F...
This article highlights the recent development of ultrafast electron diffraction at Caltech. This de...
In this article we highlight recent developments of ultrafast electron diffraction and crystallograp...
The long held objective of directly observing atomic motions during the defining moments of chemistr...
The long held objective of directly observing atomic motions during the defining moments of chemistr...
We review the tremendous advances in ultrafast X-ray science, over the past 15 years, making the bes...