June 20 - 25, 2010 :: Joint Summer School on "Atomic-level Response of Materials to Irradiation" will be hosted by the Center for Materials at Irradiation and Mechanical Extremes(Los Alamos National Laboratory), the Center for Defect Physics in Structural Materials (Oak Ridge National Laboratory), and the Center for Materials Science of Nuclear Fuel (Idaho National Laboratory). More information can be found here.
Highlights
![Infrared laser light (red beam) illuminates the surface of ZrSiSe and mixes with electron oscillations enabled by an atomic force microscope (silver cone), propagating light as ray-like structures that guide the light through the interior (blue zig-zag).](/-/media/bes/mse/images/highlights/2024/Metals-Light.jpg?h=729&w=1106&la=en&hash=2853B967300B383F67444C4629C684061696AB9F86DA5E08CE1F8AF50E30215F)
What If Metals Could Conduct Light?
In the unusual world of quantum materials, metals can guide light in their interiors instead of merely reflecting it.
![Advanced Computing Brings Autonomous Investigations to Nanostructured Surfaces](/-/media/bes/images/highlights/2023/BES-2023-10-g.jpg?h=468&w=624&la=en&hash=EED5E1E4EBDFBD66A2F25A57563E29BE84142EA0E3194D7454500943D649D945)
Advanced Computing Brings Autonomous Investigations to Nanostructured Surfaces
Machine learning and artificial intelligence accelerate nanomaterials investigations.