The fabrication of ever-shrinking semi-conductor devices requires focused ion milling sources with smaller and smaller resolution. To achieve the sub-nanometre focusing potential of a cold atom electron and ion source (orders of magnitude smaller than thermal sources) will require the removal of any heating mechanisms, such as disorder-induced heating. One way of overcoming this effect […]
blogs.unimelb.edu.au/atomopt/2016/08/15/new-publication-disorder-induced-heating-of-ultracold-neutral-plasmas-created-from-atoms-in-partially-filled-optical-lattices
New electron sources using laser-cooled atoms promise breakthrough enhancements in brightness with potential for ultrafast imaging at atomic scales. In these sources the beam current is intrinsically tied to the efficiency of excitation of the cold atoms. Here we present experiments where we use the counter-intuitive STIRAP technique to increase the excitation efficiency and therefore […]
blogs.unimelb.edu.au/atomopt/2016/08/15/new-publication-stimulated-raman-adiabatic-passage-for-improved-performance-of-a-cold-atom-electron-and-ion-source
This invited article reviews cold atom electron sources, describing the many different implementations of the concept and an overview of the relevant theory behind their operation. We compare results from recent cold electron diffraction experiments with typical results achieved using conventional thermal sources, highlighting the potential of cold atom sources for single-shot and ultrafast diffraction […]
blogs.unimelb.edu.au/atomopt/2016/08/04/new-publication-cold-electron-sources-using-laser-cooled-atoms