Ultrafast Photonic Electron Microscopy: Visualising dynamics at the nanoscale. The dynamics of molecular processes are too fast to observe with any microscope so science has instead relied on recording the static before and after states of these changes, inferring what happens in between. This project aims to combine the advantages of ultrafast photonic laser control and electron microscopy to allow the direct visualisation of dynamics at the nanoscale in physical and biological systems. By prov ....Ultrafast Photonic Electron Microscopy: Visualising dynamics at the nanoscale. The dynamics of molecular processes are too fast to observe with any microscope so science has instead relied on recording the static before and after states of these changes, inferring what happens in between. This project aims to combine the advantages of ultrafast photonic laser control and electron microscopy to allow the direct visualisation of dynamics at the nanoscale in physical and biological systems. By providing a view into how order emerges from the thermal chaos of molecular objects this project aims to help to reveal the physical basis for life.Read moreRead less
Atomic scale imaging with high coherence electrons and ions. This project aims to combine a cold atom electron-ion source with a commercial microscope column for atomic-scale imaging in biosciences and materials science. Nanoscale imaging with electron and ion microscopy are tools for investigating the world at the atomic scale, underpinning development in modern technologies from semiconductor devices to medical treatments. This project will use ideas from laser cooling of atoms and atom optics ....Atomic scale imaging with high coherence electrons and ions. This project aims to combine a cold atom electron-ion source with a commercial microscope column for atomic-scale imaging in biosciences and materials science. Nanoscale imaging with electron and ion microscopy are tools for investigating the world at the atomic scale, underpinning development in modern technologies from semiconductor devices to medical treatments. This project will use ideas from laser cooling of atoms and atom optics to achieve new imaging modalities for time-lapse imaging of fundamental processes at the nano-scale. It will allow increasingly small scale resolution of fundamental processes at the nano-scale.Read moreRead less