In the future,
ultrafast laser crystallography promises to illuminate a broad range of biomolecules, from light sensitive photoreceptors to other vital proteins.
Not exact matches
Using
ultrafast laser pulses that speed up the data recording process, Caltech researchers adopted a novel technique,
ultrafast electron
crystallography (UEC), to visualize directly in four dimensions the changing atomic configurations of the materials undergoing the phase changes.
Ray of Light: A new generation of
ultrafast X-ray
lasers is redefining the field of X-ray
crystallography, revealing never - before - seen features and dynamic processes.
These opportunities include using
ultrafast X-ray sources to extract time - dependent structural information from proteins; and revolutionary possibilities created by X-ray Free Electron
Laser radiation for an entirely new regime of pre-damage serial femtosecond
crystallography.
These opportunities include the use of short - pulsed X-ray sources for extracting time - dependent structural information from proteins; and the revolutionary new possibilities created by X-ray Free Electron
Lasers, which combine
ultrafast X-ray pulses with high brilliance focussing capabilities to create an entirely new regime of pre-damage time - resolved serial femtosecond
crystallography on unprecedented time - scales.